Alfonso MAFFEZZOLI

Alfonso MAFFEZZOLI

Professore I Fascia (Ordinario/Straordinario)

Settore Scientifico Disciplinare ING-IND/24: PRINCIPI DI INGEGNERIA CHIMICA.

Dipartimento di Ingegneria dell'Innovazione

Centro Ecotekne Pal. O - S.P. 6, Lecce - Monteroni - LECCE (LE)

Ufficio, Piano terra

Telefono +39 0832 29 7254 +39 0832 29 7267 +39 0832 29 7344

Full professor

Area di competenza:

Polymer materials

Composite Materials

Nanocomposites

Orario di ricevimento

Martedì ore 11-13 II piano "La Stecca"

Tuesday 11-13 II floor at "La Stecca"

Recapiti aggiuntivi

http://mstg.unile.it/people/maffezzoli.html

Visualizza QR Code Scarica la Visit Card

Curriculum Vitae

Alfonso Maffezzoli received his master degree in Mechanical Engineering in 1987 and the Ph.D. degree in Materials Technology at University of Naples in 1991, working also as associate researcher at University of Washington (Seattle, USA). In 1991 he won the Young Scientist Award of the European Materials Research Society (E-MRS). In 1992 he joined the University of Salento as lecturer and presently he is full professor at the department of engineering for innovation. He is the coordinator of  a multidisciplinary research group operating in the area of technology of polymers, composites, ceramics and biomaterials, working on many research projects either supported by public institutions or supported by private companies. His didactic activity covered the general aspects of materials science and technology and polymer science at the engineering faculty. He is actually teaching courses on composites science and technology and process modelling. He chaired the course of materials engineering  and was the director of the Department of Engineering for Innovation, being actually the coordinator of the Ph.D. program in “Materials and structure engineering and nanotechnology”. His research interests are more recently focused on processing and properties of polymers, composites and biomaterials. He is author of more than 220 papers in international journals besides several patents and many presentations at international conferences. He is in the editorial board of Materials, Frontiers in materials: polymeric and composite materials and  Journal of composite science, acting as reviewer for  more than 20 international journals.  He was the scientist responsible for several research projects supported by the EU, Italian government and regional authority. He participated to project evaluation for EU M-ERA.NET consortium, the Swiss Science Foundation, ETH Zurich, the Comisión Nacional de Investigación Científica y Tecnológica of Chile, Agency for Science, Technology & Research of Singapore, King Abdullah University of Science and Technology of Saudi Arabia, the National Fund for Scientific Research of Belgium, The Dutch Research Council, the Italian Ministry of University and Research and several Italian regional authorities.

According to Scopus (July 2022), he has 274 scientific papers and his h-index, is  equal to 49 with more than 8000 citations.

Scarica curriculum vitae

Didattica

A.A. 2023/2024

HEAT AND MASS TRANSFER PHENOMENA IN COMPOSITES AND POLYMERS

Degree course MATERIALS ENGINEERING AND NANOTECHNOLOGY

Course type Laurea Magistrale

Language INGLESE

Credits 9.0

Teaching hours Ore totali di attività frontale: 81.0

Year taught 2023/2024

For matriculated on 2022/2023

Course year 2

Structure DIPARTIMENTO DI INGEGNERIA DELL'INNOVAZIONE

Subject matter PERCORSO COMUNE

Location Lecce

PROCESSING AND PROPERTIES OF COMPOSITE MATERIALS FOR AERONAUTICS

Degree course AEROSPACE ENGINEERING

Course type Laurea Magistrale

Language INGLESE

Credits 9.0

Teaching hours Ore totali di attività frontale: 81.0

Year taught 2023/2024

For matriculated on 2022/2023

Course year 2

Structure DIPARTIMENTO DI INGEGNERIA DELL'INNOVAZIONE

Subject matter CURRICULUM AEROSPACE TECHNOLOGY

Location Brindisi

PROPRIETA' E TECNOLOGIE DEI MATERIALI ANISOTROPI

Corso di laurea INGEGNERIA BIOMEDICA

Tipo corso di studio Laurea Magistrale

Lingua ITALIANO

Crediti 9.0

Docente titolare Alfonso MAFFEZZOLI

Ripartizione oraria Ore totali di attività frontale: 81.0

  Ore erogate dal docente Alfonso MAFFEZZOLI: 54.0

Anno accademico di erogazione 2023/2024

Per immatricolati nel 2023/2024

Anno di corso 1

Struttura DIPARTIMENTO DI INGEGNERIA DELL'INNOVAZIONE

Percorso INGEGNERIA TISSUTALE

Sede Lecce

A.A. 2022/2023

HEAT AND MASS TRANSFER PHENOMENA IN COMPOSITES AND POLYMERS

Degree course MATERIALS ENGINEERING AND NANOTECHNOLOGY

Course type Laurea Magistrale

Language INGLESE

Credits 9.0

Owner professor Alfonso MAFFEZZOLI

Teaching hours Ore totali di attività frontale: 81.0

  Ore erogate dal docente Alfonso MAFFEZZOLI: 63.0

Year taught 2022/2023

For matriculated on 2021/2022

Course year 2

Structure DIPARTIMENTO DI INGEGNERIA DELL'INNOVAZIONE

Subject matter PERCORSO COMUNE

Location Lecce

PROCESSING AND PROPERTIES OF COMPOSITE MATERIALS FOR AERONAUTICS

Degree course AEROSPACE ENGINEERING

Course type Laurea Magistrale

Language INGLESE

Credits 9.0

Owner professor Alfonso MAFFEZZOLI

Teaching hours Ore totali di attività frontale: 81.0

  Ore erogate dal docente Alfonso MAFFEZZOLI: 63.0

Year taught 2022/2023

For matriculated on 2021/2022

Course year 2

Structure DIPARTIMENTO DI INGEGNERIA DELL'INNOVAZIONE

Subject matter CURRICULUM AEROSPACE TECHNOLOGY

Location Brindisi

A.A. 2021/2022

HEAT AND MASS TRANSFER PHENOMENA IN COMPOSITES AND POLYMERS

Degree course MATERIALS ENGINEERING AND NANOTECHNOLOGY

Course type Laurea Magistrale

Language INGLESE

Credits 9.0

Teaching hours Ore totali di attività frontale: 81.0

Year taught 2021/2022

For matriculated on 2020/2021

Course year 2

Structure DIPARTIMENTO DI INGEGNERIA DELL'INNOVAZIONE

Subject matter PERCORSO COMUNE

Location Lecce

PROCESSING AND PROPERTIES OF COMPOSITE MATERIALS FOR AERONAUTICS

Degree course AEROSPACE ENGINEERING

Course type Laurea Magistrale

Language INGLESE

Credits 9.0

Owner professor Alfonso MAFFEZZOLI

Teaching hours Ore totali di attività frontale: 81.0

  Ore erogate dal docente Alfonso MAFFEZZOLI: 54.0

Year taught 2021/2022

For matriculated on 2020/2021

Course year 2

Structure DIPARTIMENTO DI INGEGNERIA DELL'INNOVAZIONE

Subject matter CURRICULUM AEROSPACE TECHNOLOGY

Location Brindisi

A.A. 2020/2021

HEAT AND MASS TRANSFER PHENOMENA IN COMPOSITES AND POLYMERS

Degree course MATERIALS ENGINEERING AND NANOTECHNOLOGY

Course type Laurea Magistrale

Language INGLESE

Credits 9.0

Teaching hours Ore totali di attività frontale: 81.0

Year taught 2020/2021

For matriculated on 2019/2020

Course year 2

Structure DIPARTIMENTO DI INGEGNERIA DELL'INNOVAZIONE

Subject matter PERCORSO COMUNE

Location Lecce

PROCESSING AND PROPERTIES OF COMPOSITE MATERIALS FOR AERONAUTICS

Degree course AEROSPACE ENGINEERING

Course type Laurea Magistrale

Language INGLESE

Credits 9.0

Teaching hours Ore totali di attività frontale: 81.0

Year taught 2020/2021

For matriculated on 2019/2020

Course year 2

Structure DIPARTIMENTO DI INGEGNERIA DELL'INNOVAZIONE

Subject matter DESIGN

Location Brindisi

A.A. 2019/2020

HEAT AND MASS TRANSFER PHENOMENA IN COMPOSITES AND POLYMERS

Degree course MATERIALS ENGINEERING AND NANOTECHNOLOGY

Course type Laurea Magistrale

Language INGLESE

Credits 9.0

Teaching hours Ore totali di attività frontale: 81.0

Year taught 2019/2020

For matriculated on 2018/2019

Course year 2

Structure DIPARTIMENTO DI INGEGNERIA DELL'INNOVAZIONE

Subject matter PERCORSO COMUNE

Location Lecce

PROCESSING AND PROPERTIES OF COMPOSITE MATERIALS FOR AERONAUTICS

Degree course AEROSPACE ENGINEERING

Course type Laurea Magistrale

Language INGLESE

Credits 9.0

Teaching hours Ore totali di attività frontale: 81.0

Year taught 2019/2020

For matriculated on 2018/2019

Course year 2

Structure DIPARTIMENTO DI INGEGNERIA DELL'INNOVAZIONE

Subject matter AEROSPACE DESIGN

Location Brindisi

A.A. 2018/2019

HEAT AND MASS TRANSFER PHENOMENA IN COMPOSITES AND POLYMERS

Degree course MATERIALS ENGINEERING AND NANOTECHNOLOGY

Course type Laurea Magistrale

Language INGLESE

Credits 9.0

Teaching hours Ore totali di attività frontale: 81.0

Year taught 2018/2019

For matriculated on 2017/2018

Course year 2

Structure DIPARTIMENTO DI INGEGNERIA DELL'INNOVAZIONE

Subject matter PERCORSO COMUNE

Location Lecce

PROCESSING AND PROPERTIES OF COMPOSITE MATERIALS FOR AERONAUTICS

Degree course AEROSPACE ENGINEERING

Course type Laurea Magistrale

Language INGLESE

Credits 9.0

Teaching hours Ore totali di attività frontale: 81.0

Year taught 2018/2019

For matriculated on 2017/2018

Course year 2

Structure DIPARTIMENTO DI INGEGNERIA DELL'INNOVAZIONE

Subject matter AEROSPACE DESIGN

Location Brindisi

Torna all'elenco
HEAT AND MASS TRANSFER PHENOMENA IN COMPOSITES AND POLYMERS

Degree course MATERIALS ENGINEERING AND NANOTECHNOLOGY

Subject area ING-IND/24

Course type Laurea Magistrale

Credits 9.0

Teaching hours Ore totali di attività frontale: 81.0

For matriculated on 2022/2023

Year taught 2023/2024

Course year 2

Semestre Primo Semestre (dal 18/09/2023 al 22/12/2023)

Language INGLESE

Subject matter PERCORSO COMUNE (999)

Location Lecce

Knowledge of transport phenomena and polymer physics and chemistry.

 This course is aimed to apply the basic knowledge of transport phenomena to the mathematical modeling of processing of composite materials.   Competences on thermosetting polymer matrices, their reactivity and the kinetics of curing are also provided. Basic elements of finite element (FE) numerical solution of heat balance equations is provided. The optimization of composite processing is performed adopting a FE tool. In the last part of the course sorption and mass diffusion in polymers is analyzed as an application of the basic knowledge of transport phenomena

Knowledge and understanding:

The course provides the basis  of knowledge to understand and solve complex new problems  in materials processing and in mass and heat diffusion,  applying ideas often in a research context

Applying knowledge and understanding

The student will be able to solve heat and mass balances, applied to materials processing, using approximate solution or numerical methods. A multidisciplinary approach is presented accounting for chemical, materials and mechanical engineering aspects.

Making judgements

Dimensionless and approximate methods are presented in order to promote the judgement and evaluation capabilities of the students

Communication

The course promotes the development of the following skills of the student: ability to expose in precise and formal terms an abstract model of concrete problems, identifying the salient characteristics of them and discarding the inessential characteristics; ability to describe and analyze an efficient solution for the problem under consideration.

Learning skills

Autonomous learning is promoted thanks to the use of: different books and slides,  numerical methods, homework exercise to be solved in groups of two

Lessons, practice with a Finite Element program for the solution of differential equations, visit to an industrial plant. Self evaluation tests with Kahoots after every topic

Interview after a homework . A homework regarding modeling topics, and an associated finite element solution of the related differential equations, is assigned to students. During the exams the homework is discussed and if the results are satisfactory an interview is started with questions regarding the main topics of the course

Assessments dates available at ing.unisalento.it. The assessment includes the discussion of an assignment followed by an interview

Write an email to the teacher (alfonso.maffezzoli@unisalento.it) for an appointment or questions

Introduction, thermosetting composite matrices (12 hours).
Basic principles of the processing of thermosetting matrix composites: autoclave lamination as case study (20 hours).
Process modeling through numerical solution of differential equations (10 hours).
Modeling approach to filament winding, pulrusion, RTM and other processes (16 hours).
Processing of thermoplastic composites (4 hours).
Visit to industrial plants (3 hours).
Mass transport in polymers: technological and modeling issues (20 hours).
Industrial plant visits are programmed. A full day to the Journée européenne de composites (JEC) in Paris (France), the most relevant world fair on materials and processes for composites, is organized if adequate financial support is provided by University to students.

Slides in *.ppt format available at https://formazioneonline.unisalento.it/

Crank “Mathematics of diffusion”

D. S. Burnett “Finite Element Analysis: From Concepts to Applications”

P.K. Mallick “Fiber-Reinforced Composites: Materials, Manufacturing, and Design”

 

HEAT AND MASS TRANSFER PHENOMENA IN COMPOSITES AND POLYMERS (ING-IND/24)
PROCESSING AND PROPERTIES OF COMPOSITE MATERIALS FOR AERONAUTICS

Degree course AEROSPACE ENGINEERING

Subject area ING-IND/24

Course type Laurea Magistrale

Credits 9.0

Teaching hours Ore totali di attività frontale: 81.0

For matriculated on 2022/2023

Year taught 2023/2024

Course year 2

Semestre Secondo Semestre (dal 04/03/2024 al 14/06/2024)

Language INGLESE

Subject matter CURRICULUM AEROSPACE TECHNOLOGY (A101)

Location Brindisi

knowledge of solid mechanics and materials science and technology

This course provides a strong interdisciplinary approach to composite materials in view of their application in aeronautic structure. Competences on polymer matrices and reinforcements, mechanics of anisotropic materials, fabrication technologies of thermoplastic and thermosetting matrix composites are provided. 

Knowledge and understanding:

The course provides the basis  of knowledge to understand and solve complex new problems  in design and  processing of composite materials accounting for anisotropy and reactive processing

Applying knowledge and understanding

The student will be able to apply the basic knowledge on mechanics of anisotropic materials to the design of simple structural elements. A multidisciplinary approach is presented accounting for chemical, materials and mechanical engineering aspects.

Making judgements

Simplification and synthesis  of complex problems is presented in order to promote the judgement and evaluation capabilities of the students

Communication

The course promotes the development of the following skills of the student: ability to expose in precise and formal terms an abstract model of concrete problems, identifying the salient characteristics of them and discarding the inessential characteristics; ability to describe and analyze an efficient solution for the problem under consideration. A seminar on composite properties is assigned to students

Learning skills

Autonomous learning is promoted thanks to the use of: different books and slides,  numerical methods, homework exercise to be solved in groups of two. 

Lessons, practice with a software implementing micro and macromechanic of composite materials, visit to an industrial plant. Self evaluation tests after  each topic by Kahoot

Interview after a seminar on composite properties held during the course and a homework .

Assessments dates available at ing.unisalento.it. The assessment includes the discussion of an assignment followed by an interview

For any question write an email to alfonso.maffezzoli@unisalento.it. Link to the team for online interviews: https://teams.microsoft.com/l/team/19%3a458cbee969be476aa9eea632273a6e8b%40thread.tacv2/conversations?groupId=7f7c14aa-bc49-4e0a-83a3-df9179e7e81e&tenantId=8d49eb30-429e-4944-8349-dee009bdd7da

Introduction (2 h.)

Reinforcement and core materials (18 h) (Prof. Licciulli)
Thermosetting and thermoplastic matrices (7 h.)
Micromechanic. (15 h.)
Macromechanic. (20 h. )

Properties and ceramic marix composites (5 h.) (prof. Licciulli)
Fabrication technologies of polymer matrix materials (12 h.)

Visit to  an industrial plant (3 h.) (prof. Licciulli)

P.K. Mallick "Fiber-reinforced composites"CRC Press,

R.M. Jones "Mechanics of composite materials" Taylor & Francis

Slides of the course provided by the teacher

PROCESSING AND PROPERTIES OF COMPOSITE MATERIALS FOR AERONAUTICS (ING-IND/24)
PROPRIETA' E TECNOLOGIE DEI MATERIALI ANISOTROPI

Corso di laurea INGEGNERIA BIOMEDICA

Settore Scientifico Disciplinare ING-IND/24

Tipo corso di studio Laurea Magistrale

Crediti 9.0

Docente titolare Alfonso MAFFEZZOLI

Ripartizione oraria Ore totali di attività frontale: 81.0

  Ore erogate dal docente Alfonso MAFFEZZOLI: 54.0

Per immatricolati nel 2023/2024

Anno accademico di erogazione 2023/2024

Anno di corso 1

Semestre Secondo Semestre (dal 04/03/2024 al 14/06/2024)

Lingua ITALIANO

Percorso INGEGNERIA TISSUTALE (A228)

Sede Lecce

Conoscenze dei fenomeni di trasporto e della meccanica dei solidi

 Il corso si propone di fornire conoscenze sulle  proprietà fisico-meccaniche e le tecnologie di fabbricazione dei materiali anisotropi. Il focus sarà soprattutto sui materiali compositi fibrorinforzati. L'approccio prevede lo sviluppo di modelli di simulazione dei processi di fabbricazione e del dimensionamento di semplici elementi strutturali

Conoscenza e comprensione:

Il corso fornisce le basi della conoscenza per comprendere e risolvere problemi connessi alla fabbricazione e progettazione di componenti in materiale composito 

Applicare conoscenza e comprensione

Lo studente sarà in grado di risolvere bilanci di energia, applicati alla lavorazione dei materiali, utilizzando soluzioni approssimate o metodi numerici. Viene presentato un approccio multidisciplinare che tiene conto degli aspetti chimici, della scienza dei materiali e della meccanica dei solidi anisotropi

Formulare giudizi

Vengono presentati metodi di analisi adimensionale e approssimati al fine di promuovere le capacità di giudizio e valutazione degli studenti. Lo studente deve essere in grado di comprendere cosa può essere trascurato nella soluzione di problemi complessi che coinvolgono la soluzione di equazioni di bilancio

Comunicazione

Il corso promuove lo sviluppo delle seguenti abilità dello studente: capacità di esporre in termini precisi e formali un modello astratto di problemi concreti, individuandone le caratteristiche salienti e scartando le caratteristiche non essenziali; capacità di descrivere e analizzare una soluzione ottimizzata  per il problema in esame.

Capacità di apprendimento

Viene promosso l'apprendimento autonomo grazie all'utilizzo di: libri e slides, l'uso metodi numerici, l'assegnazione di un homework  da risolvere in gruppi di due

Lezioni frontali, esercitazioni con un programma di analisi agli Elementi Finiti per la soluzione di equazioni differenziali, visita ad un impianto industriale. Test di autovalutazione con Kahoots dopo ogni argomento

Colloquio dopo la discussione di un homework che potrà riguardare ottimizzazione di un problema complesso di scambio termico da risolvere con analisi FEM o analisi di un elemento strutturale in materiale composito

Le date di esame sono disponibili al link ing.unisalento.it. L'esame consiste nella discussione di un tema d'anno ed un colloquio

Per spiegazioni o appuntamenti scrivere un email a alfonso.maffezzoli@unisalento.it

Materiali anisotropi polimerici:

-Fibre polimeriche

-Fibre di rinforzo per compositi

Materiali compositi

-Matrici termoindurenti: chimica, reattività e proprietà

-Tecnologie di fabbricazione di compositi a matrice termoindurente

-Modellazione matematica dei processi di fabbricazione dei compositi

-Cinetica delle reazioni di polimerizzazione a radicalica e a stadi

-Chemoreologia delle matrici termoindurenti

-Simulazione di processo: Bilancio di energia

-Simulazione di processo: equazione di Darcy e di continuità

Meccanica dei materiali compositi: Micromeccanica

-Relazione sforzo-deformazione per materiali isotropi e anisotropi

-Interazione fibra-matrice e interfacce

 -Calcolo delle proprietà elastiche di una lamina unidirezionale

-Resistenza di una lamina

Meccanica dei materiali compositi:Macromeccanica

-Relazione sforzo-deformazione per una lamina anisotropa

-Teoria della laminazione

 -Rigidezza di un laminato

-Criteri di resistenza per una lamina

-Criteri di resistenza per laminati

 

Slides in *.ppt format disponibili al link https://formazioneonline.unisalento.it/

D. S. Burnett “Finite Element Analysis: From Concepts to Applications”

P.K. Mallick “Fiber-Reinforced Composites: Materials, Manufacturing, and Design”

 

PROPRIETA' E TECNOLOGIE DEI MATERIALI ANISOTROPI (ING-IND/24)
HEAT AND MASS TRANSFER PHENOMENA IN COMPOSITES AND POLYMERS

Degree course MATERIALS ENGINEERING AND NANOTECHNOLOGY

Subject area ING-IND/24

Course type Laurea Magistrale

Credits 9.0

Owner professor Alfonso MAFFEZZOLI

Teaching hours Ore totali di attività frontale: 81.0

  Ore erogate dal docente Alfonso MAFFEZZOLI: 63.0

For matriculated on 2021/2022

Year taught 2022/2023

Course year 2

Semestre Primo Semestre (dal 23/09/2022 al 20/12/2022)

Language INGLESE

Subject matter PERCORSO COMUNE (999)

Location Lecce

Knowledge of transport phenomena and polymer physics and chemistry.

 This course is aimed to apply the basic knowledge of transport phenomena to the mathematical modeling of processing of composite materials.   Competences on thermosetting polymer matrices, their reactivity and the kinetics of curing are also provided. Basic elements of finite element (FE) numerical solution of heat balance equations is provided. The optimization of composite processing is performed adopting a FE tool. In the last part of the course sorption and mass diffusion in polymers is analyzed as an application of the basic knowledge of transport phenomena

Knowledge and understanding:

The course provides the basis  of knowledge to understand and solve complex new problems  in materials processing and in mass and heat diffusion,  applying ideas often in a research context

Applying knowledge and understanding

The student will be able to solve heat and mass balances, applied to materials processing, using approximate solution or numerical methods. A multidisciplinary approach is presented accounting for chemical, materials and mechanical engineering aspects.

Making judgements

Dimensionless and approximate methods are presented in order to promote the judgement and evaluation capabilities of the students

Communication

The course promotes the development of the following skills of the student: ability to expose in precise and formal terms an abstract model of concrete problems, identifying the salient characteristics of them and discarding the inessential characteristics; ability to describe and analyze an efficient solution for the problem under consideration.

Learning skills

Autonomous learning is promoted thanks to the use of: different books and slides,  numerical methods, homework exercise to be solved in groups of two

Lessons, practice with a Finite Element program for the solution of differential equations, visit to an industrial plant. Self evaluation tests with Kahoots after every topic

Interview after a homework . A homework regarding modeling topics, and an associated finite element solution of the related differential equations, is assigned to students. During the exams the homework is discussed and if the results are satisfactory an interview is started with questions regarding the main topics of the course

Assessments dates available at ing.unisalento.it. The assessment includes the discussion of an assignment followed by an interview

Write an email to the teacher (alfonso.maffezzoli@unisalento.it) for an appointment or questions

Introduction, thermosetting composite matrices (12 hours).
Basic principles of the processing of thermosetting matrix composites: autoclave lamination as case study (20 hours).
Process modeling through numerical solution of differential equations (10 hours).
Modeling approach to filament winding, pulrusion, RTM and other processes (16 hours).
Processing of thermoplastic composites (4 hours).
Visit to industrial plants (3 hours).
Mass transport in polymers: technological and modeling issues (20 hours).
Industrial plant visits are programmed. A full day to the Journée européenne de composites (JEC) in Paris (France), the most relevant world fair on materials and processes for composites, is organized if adequate financial support is provided by University to students.

Slides in *.ppt format available at https://formazioneonline.unisalento.it/

Crank “Mathematics of diffusion”

D. S. Burnett “Finite Element Analysis: From Concepts to Applications”

P.K. Mallick “Fiber-Reinforced Composites: Materials, Manufacturing, and Design”

 

HEAT AND MASS TRANSFER PHENOMENA IN COMPOSITES AND POLYMERS (ING-IND/24)
PROCESSING AND PROPERTIES OF COMPOSITE MATERIALS FOR AERONAUTICS

Degree course AEROSPACE ENGINEERING

Subject area ING-IND/24

Course type Laurea Magistrale

Credits 9.0

Owner professor Alfonso MAFFEZZOLI

Teaching hours Ore totali di attività frontale: 81.0

  Ore erogate dal docente Alfonso MAFFEZZOLI: 63.0

For matriculated on 2021/2022

Year taught 2022/2023

Course year 2

Semestre Secondo Semestre (dal 01/03/2023 al 09/06/2023)

Language INGLESE

Subject matter CURRICULUM AEROSPACE TECHNOLOGY (A101)

Location Brindisi

knowledge of solid mechanics and materials science and technology

This course provides a strong interdisciplinary approach to composite materials in view of their application in aeronautic structure. Competences on polymer matrices and reinforcements, mechanics of anisotropic materials, fabrication technologies of thermoplastic and thermosetting matrix composites are provided. 

Knowledge and understanding:

The course provides the basis  of knowledge to understand and solve complex new problems  in design and  processing of composite materials accounting for anisotropy and reactive processing

Applying knowledge and understanding

The student will be able to apply the basic knowledge on mechanics of anisotropic materials to the design of simple structural elements. A multidisciplinary approach is presented accounting for chemical, materials and mechanical engineering aspects.

Making judgements

Simplification and synthesis  of complex problems is presented in order to promote the judgement and evaluation capabilities of the students

Communication

The course promotes the development of the following skills of the student: ability to expose in precise and formal terms an abstract model of concrete problems, identifying the salient characteristics of them and discarding the inessential characteristics; ability to describe and analyze an efficient solution for the problem under consideration. A seminar on composite properties is assigned to students

Learning skills

Autonomous learning is promoted thanks to the use of: different books and slides,  numerical methods, homework exercise to be solved in groups of two. 

Lessons, practice with a software implementing micro and macromechanic of composite materials, visit to an industrial plant. Self evaluation tests after  each topic by Kahoot

Interview after a seminar on composite properties held during the course and a homework .

Assessments dates available at ing.unisalento.it. The assessment includes the discussion of an assignment followed by an interview

For any question write an email to alfonso.maffezzoli@unisalento.it. Link to the team for online interviews: https://teams.microsoft.com/l/team/19%3a458cbee969be476aa9eea632273a6e8b%40thread.tacv2/conversations?groupId=7f7c14aa-bc49-4e0a-83a3-df9179e7e81e&tenantId=8d49eb30-429e-4944-8349-dee009bdd7da

Introduction (2 h.)

Reinforcement and core materials (18 h) (Prof. Licciulli)
Thermosetting and thermoplastic matrices (7 h.)
Micromechanic. (15 h.)
Macromechanic. (20 h. )

Properties and ceramic marix composites (5 h.) (prof. Licciulli)
Fabrication technologies of polymer matrix materials (12 h.)

Visit to  an industrial plant (3 h.) (prof. Licciulli)

P.K. Mallick "Fiber-reinforced composites"CRC Press,

R.M. Jones "Mechanics of composite materials" Taylor & Francis

Slides of the course provided by the teacher

PROCESSING AND PROPERTIES OF COMPOSITE MATERIALS FOR AERONAUTICS (ING-IND/24)
HEAT AND MASS TRANSFER PHENOMENA IN COMPOSITES AND POLYMERS

Degree course MATERIALS ENGINEERING AND NANOTECHNOLOGY

Subject area ING-IND/24

Course type Laurea Magistrale

Credits 9.0

Teaching hours Ore totali di attività frontale: 81.0

For matriculated on 2020/2021

Year taught 2021/2022

Course year 2

Semestre Primo Semestre (dal 20/09/2021 al 17/12/2021)

Language INGLESE

Subject matter PERCORSO COMUNE (999)

Location Lecce

Knowledge of transport phenomena and polymer physics and chemistry.

 This course is aimed to apply the basic knowledge of transport phenomena to the mathematical modeling of processing of composite materials.   Competences on thermosetting polymer matrices, their reactivity and the kinetics of curing are also provided. Basic elements of finite element (FE) numerical solution of heat balance equations is provided. The optimization of composite processing is performed adopting a FE tool. In the last part of the course sorption and mass diffusion in polymrs is analyzed as an application of the basic knowledge of transport phenomena

Knowledge and understanding:

The course provides the basis  of knowledge to understand and solve complex new problems  in materials processing and in mass and heat diffusion,  applying ideas often in a research context

Applying knowledge and understanding

The student will be able to solve heat and mass balances, applied to materials processing, using approximate solution or numerical methods. A multidisciplinary approach is presented accounting for chemical, materials and mechanical engineering aspects.

Making judgements

Dimensionless and approximate methods are presented in order to promote the judgement and evaluation capabilities of the students

Communication

The course promotes the development of the following skills of the student: ability to expose in precise and formal terms an abstract model of concrete problems, identifying the salient characteristics of them and discarding the inessential characteristics; ability to describe and analyze an efficient solution for the problem under consideration.

Learning skills

Autonomous learning is promoted thanks to the use of: different books and slides,  numerical methods, homework exercise to be solved in groups of two

Lessons, practice with a Finite Element program for the solution of differential equations, visit to an industrial plant. Self evaluation tests with Kahoots after every topic

Interview after a homework . A homework regarding modeling topics, and an associated finite element solution of the related differential equations, is assigned to students. During the exams the homework is discussed and if the results are satisfactory an interview is started with questions regarding the main topics of the course

Assessments dates available at ing.unisalento.it. The assessment includes the discussion of an assignment followed by an interview

Write an email to the teacher (alfonso.maffezzoli@unisalento.it) for an appointment or questions

The link to participate to on-line interviews is:

https://teams.microsoft.com/l/team/19%3aacd7a95cfc284755a9abd13166db8c77%40thread.tacv2/conversations?groupId=27704f5f-8082-4ce8-85dc-fc7678e9f8bc&tenantId=8d49eb30-429e-4944-8349-dee009bdd7da

Introduction, thermosetting composite matrices (12 hours).
Basic principles of the processing of thermosetting matrix composites: autoclave lamination as case study (20 hours).
Process modeling through numerical solution of differential equations (10 hours).
Modeling approach to filament winding, pulrusion, RTM and other processes (16 hours).
Processing of thermoplastic composites (8 hours).
Visit to industrial plants (3 hours).
Mass transport in polymers: technological and modeling issues (12 hours).
Industrial plant visits are programmed. A full day to the Journée européenne de composites (JEC) in Paris (France), the most relevant world fair on materials and processes for composites, is organized if adequate financial support is provided by University to students.

Slides in *.ppt format available at https://formazioneonline.unisalento.it/

Crank “Mathematics of diffusion”

D. S. Burnett “Finite Element Analysis: From Concepts to Applications”

P.K. Mallick “Fiber-Reinforced Composites: Materials, Manufacturing, and Design”

 

HEAT AND MASS TRANSFER PHENOMENA IN COMPOSITES AND POLYMERS (ING-IND/24)
PROCESSING AND PROPERTIES OF COMPOSITE MATERIALS FOR AERONAUTICS

Degree course AEROSPACE ENGINEERING

Subject area ING-IND/24

Course type Laurea Magistrale

Credits 9.0

Owner professor Alfonso MAFFEZZOLI

Teaching hours Ore totali di attività frontale: 81.0

  Ore erogate dal docente Alfonso MAFFEZZOLI: 54.0

For matriculated on 2020/2021

Year taught 2021/2022

Course year 2

Semestre Secondo Semestre (dal 01/03/2022 al 10/06/2022)

Language INGLESE

Subject matter CURRICULUM AEROSPACE TECHNOLOGY (A101)

Location Brindisi

knowledge of solid mechanics and materials science and technology

This course provides a strong interdisciplinary approach to composite materials in view of their application in aeronautic structure. Competences on polymer matrices and reinforcements, mechanics of anisotropic materials, fabrication technologies of thermoplastic and thermosetting matrix composites are provided. 

Knowledge and understanding:

The course provides the basis  of knowledge to understand and solve complex new problems  in design and  processing of composite materials accounting for anisotropy and reactive processing

Applying knowledge and understanding

The student will be able to apply the basic knowledge on mechanics of anisotropic materials to the design of simple structural elements. A multidisciplinary approach is presented accounting for chemical, materials and mechanical engineering aspects.

Making judgements

Simplification and synthesis  of complex problems is presented in order to promote the judgement and evaluation capabilities of the students

Communication

The course promotes the development of the following skills of the student: ability to expose in precise and formal terms an abstract model of concrete problems, identifying the salient characteristics of them and discarding the inessential characteristics; ability to describe and analyze an efficient solution for the problem under consideration. A seminar on composite properties is assigned to students

Learning skills

Autonomous learning is promoted thanks to the use of: different books and slides,  numerical methods, homework exercise to be solved in groups of two. 

Lessons, practice with a software implementing micro and macromechanic of composite materials, visit to an industrial plant. Self evaluation tests after  each topic by Kahoot

Interview after a seminar on composite properties held during the course and a homework .

Assessments dates available at ing.unisalento.it. The assessment includes the discussion of an assignment followed by an interview

For any question write an email to alfonso.maffezzoli@unisalento.it. Link to the team for online interviews: https://teams.microsoft.com/l/team/19%3a458cbee969be476aa9eea632273a6e8b%40thread.tacv2/conversations?groupId=7f7c14aa-bc49-4e0a-83a3-df9179e7e81e&tenantId=8d49eb30-429e-4944-8349-dee009bdd7da

Introduction (2 h.)

Reinforcement and core materials (18 h) (Prof. Licciulli)
Thermosetting and thermoplastic matrices (7 h.)
Micromechanic. (15 h.)
Macromechanic. (20 h. )

Properties and ceramic marix composites (5 h.) (prof. Licciulli)
Fabrication technologies of polymer matrix materials (12 h.)

Visit to  an industrial plant (3 h.) (prof. Licciulli)

P.K. Mallick "Fiber-reinforced composites"CRC Press,

R.M. Jones "Mechanics of composite materials" Taylor & Francis

Slides of the course provided by the teacher

PROCESSING AND PROPERTIES OF COMPOSITE MATERIALS FOR AERONAUTICS (ING-IND/24)
HEAT AND MASS TRANSFER PHENOMENA IN COMPOSITES AND POLYMERS

Degree course MATERIALS ENGINEERING AND NANOTECHNOLOGY

Subject area ING-IND/24

Course type Laurea Magistrale

Credits 9.0

Teaching hours Ore totali di attività frontale: 81.0

For matriculated on 2019/2020

Year taught 2020/2021

Course year 2

Semestre Primo Semestre (dal 22/09/2020 al 18/12/2020)

Language INGLESE

Subject matter PERCORSO COMUNE (999)

Location Lecce

Knowledge of transport phenomena and polymer physics and chemistry.

 This course is aimed to apply the basic knowledge of transport phenomena to the mathematical modeling of processing of composite materials.   Competences on thermosetting polymer matrices, their reactivity and the kinetics of curing are also provided. Basic elements of finite element (FE) numerical solution of heat balance equations is provided. The optimization of composite processing is performed adopting a FE tool. In the last part of the course sorption and mass diffusion in polymrs is analyzed as an application of the basic knowledge of transport phenomena

Knowledge and understanding:

The course provides the basis  of knowledge to understand and solve complex new problems  in materials processing and in mass and heat diffusion,  applying ideas often in a research context

Applying knowledge and understanding

The student will be able to solve heat and mass balances, applied to materials processing, using approximate solution or numerical methods. A multidisciplinary approach is presented accounting for chemical, materials and mechanical engineering aspects.

Making judgements

Dimensionless and approximate methods are presented in order to promote the judgement and evaluation capabilities of the students

Communication

The course promotes the development of the following skills of the student: ability to expose in precise and formal terms an abstract model of concrete problems, identifying the salient characteristics of them and discarding the inessential characteristics; ability to describe and analyze an efficient solution for the problem under consideration.

Learning skills

Autonomous learning is promoted thanks to the use of: different books and slides,  numerical methods, homework exercise to be solved in groups of two

Lessons, practice with a Finite Element program for the solution of differential equations, visit to an industrial plant. Self evaluation tests with Kahoots after every topic

Interview after a homework . A homework regarding modeling topics, and an associated finite element solution of the related differential equations, is assigned to students. During the exams the homework is discussed and if the results are satisfactory an interview is started with questions regarding the main topics of the course

Assessments dates available at ing.unisalento.it. The assessment includes the discussion of an assignment followed by an interview

Write an email to the teacher (alfonso.maffezzoli@unisalento.it) for an appointment or questions

The link to participate to on-line interviews is:

https://teams.microsoft.com/l/team/19%3aacd7a95cfc284755a9abd13166db8c77%40thread.tacv2/conversations?groupId=27704f5f-8082-4ce8-85dc-fc7678e9f8bc&tenantId=8d49eb30-429e-4944-8349-dee009bdd7da

Introduction, thermosetting composite matrices (12 hours).
Basic principles of the processing of thermosetting matrix composites: autoclave lamination as case study (20 hours).
Process modeling through numerical solution of differential equations (10 hours).
Modeling approach to filament winding, pulrusion, RTM and other processes (16 hours).
Processing of thermoplastic composites (8 hours).
Visit to industrial plants (3 hours).
Mass transport in polymers: technological and modeling issues (12 hours).
Industrial plant visits are programmed. A full day to the Journée européenne de composites (JEC) in Paris (France), the most relevant world fair on materials and processes for composites, is organized if adequate financial support is provided by University to students.

Slides in *.ppt format available at https://formazioneonline.unisalento.it/

Crank “Mathematics of diffusion”

D. S. Burnett “Finite Element Analysis: From Concepts to Applications”

P.K. Mallick “Fiber-Reinforced Composites: Materials, Manufacturing, and Design”

 

HEAT AND MASS TRANSFER PHENOMENA IN COMPOSITES AND POLYMERS (ING-IND/24)
PROCESSING AND PROPERTIES OF COMPOSITE MATERIALS FOR AERONAUTICS

Degree course AEROSPACE ENGINEERING

Subject area ING-IND/24

Course type Laurea Magistrale

Credits 9.0

Teaching hours Ore totali di attività frontale: 81.0

For matriculated on 2019/2020

Year taught 2020/2021

Course year 2

Semestre Secondo Semestre (dal 01/03/2021 al 11/06/2021)

Language INGLESE

Subject matter DESIGN (A101)

Location Brindisi

knowledge of solid mechanics and materials science and technology

This course provides a strong interdisciplinary approach to composite materials in view of their application in aeronautic structure. Competences on polymer matrices and reinforcements, mechanics of anisotropic materials, fabrication technologies of thermoplastic and thermosetting matrix composites are provided. 

Knowledge and understanding:

The course provides the basis  of knowledge to understand and solve complex new problems  in design and  processing of composite materials accounting for anisotropy and reactive processing

Applying knowledge and understanding

The student will be able to apply the basic knowledge on mechanics of anisotropic materials to the design of simple structural elements. A multidisciplinary approach is presented accounting for chemical, materials and mechanical engineering aspects.

Making judgements

Simplification and synthesis  of complex problems is presented in order to promote the judgement and evaluation capabilities of the students

Communication

The course promotes the development of the following skills of the student: ability to expose in precise and formal terms an abstract model of concrete problems, identifying the salient characteristics of them and discarding the inessential characteristics; ability to describe and analyze an efficient solution for the problem under consideration. A seminar on composite properties is assigned to students

Learning skills

Autonomous learning is promoted thanks to the use of: different books and slides,  numerical methods, homework exercise to be solved in groups of two. 

Lessons, practice with a software implementing micro and macromechanic of composite materials, visit to an industrial plant. Self evaluation tests after  each topic by Kahoot

Interview after a seminar on composite properties and a homework .

Discussion of an assignment followed by an interview

For any question write an email to alfonso.maffezzoli@unisalento.it. Link to the team for online interviews: https://teams.microsoft.com/l/team/19%3a458cbee969be476aa9eea632273a6e8b%40thread.tacv2/conversations?groupId=7f7c14aa-bc49-4e0a-83a3-df9179e7e81e&tenantId=8d49eb30-429e-4944-8349-dee009bdd7da

Introduction (2 h.)

Reinforcement materials (15 h)
Thermosetting and thermoplastic matrices and core materials. (10 h.)
Micromechanic. (15 h.)
Mcromechanic. (20 h. )

Properties (4 h.)
Fabrication technologies of polymer matrix materials (12 h.)

Visit to  an industrial plant (3 h.)

P.K. Mallick "Fiber-reinforced composites"CRC Press,

R.M. Jones "Mechanics of composite materials" Taylor & Francis

Slides of the course provided by the teacher

PROCESSING AND PROPERTIES OF COMPOSITE MATERIALS FOR AERONAUTICS (ING-IND/24)
HEAT AND MASS TRANSFER PHENOMENA IN COMPOSITES AND POLYMERS

Degree course MATERIALS ENGINEERING AND NANOTECHNOLOGY

Subject area ING-IND/24

Course type Laurea Magistrale

Credits 9.0

Teaching hours Ore totali di attività frontale: 81.0

For matriculated on 2018/2019

Year taught 2019/2020

Course year 2

Semestre Primo Semestre (dal 23/09/2019 al 20/12/2019)

Language INGLESE

Subject matter PERCORSO COMUNE (999)

Location Lecce

Knowledge of transport phenomena and polymer physics and chemistry.

 This course is aimed to apply the basic knowledge of transport phenomena to the mathematical modeling of processing of composite materials.   Competences on thermosetting polymer matrices, their reactivity and the kinetics of curing are also provided. Basic elements of finite element (FE) numerical solution of heat balance equations is provided. The optimization of composite processing is performed adopting a FE tool. In the last part of the course sorption and mass diffusion in polymrs is analyzed as an application of the basic knowledge of transport phenomena

Knowledge and understanding:

The course provides the basis  of knowledge to understand and solve complex new problems  in materials processing and in mass and heat diffusion,  applying ideas often in a research context

Applying knowledge and understanding

The student will be able to solve heat and mass balances, applied to materials processing, using approximate solution or numerical methods. A multidisciplinary approach is presented accounting for chemical, materials and mechanical engineering aspects.

Making judgements

Dimensionless and approximate methods are presented in order to promote the judgement and evaluation capabilities of the students

Communication

The course promotes the development of the following skills of the student: ability to expose in precise and formal terms an abstract model of concrete problems, identifying the salient characteristics of them and discarding the inessential characteristics; ability to describe and analyze an efficient solution for the problem under consideration.

Learning skills

Autonomous learning is promoted thanks to the use of: different books and slides,  numerical methods, homework exercise to be solved in groups of two

Lessons, practice with a Finite Element program for the solution of differential equations, visit to an industrial plant. Self evaluation tests with Kahoots after every topic

Oral after a homework . A homework regarding modeling topics, and an associated finite element solution of the related differential equations, is assigned to students. During the exams the homework is discussed and if the results are satisfactory an oral stage is started with questions regarding the main topics of the course

Test dates available at ing.unisalento.it

Write an email to the teacher for an appointment or questions

Introduction, thermosetting composite matrices (12 hours).
Basic principles of the processing of thermosetting matrix composites: autoclave lamination as case study (20 hours).
Process modeling through numerical solution of differential equations (10 hours).
Modeling approach to filament winding, pulrusion, RTM and other processes (16 hours).
Processing of thermoplastic composites (10 hours).
Visit to industrial plants (8 hours).
Mass transport in polymers: technological and modeling issues (12 hours).
Industrial plant visits are programmed. A full day to the Journée européenne de composites (JEC) in Paris (France), the most relevant world fair on materials and processes for composites, is organized if adequate financial support is provided by University to students.

Slides in *.ppt format available at https://formazioneonline.unisalento.it/

Crank “Mathematics of diffusion”

D. S. Burnett “Finite Element Analysis: From Concepts to Applications”

P.K. Mallick “Fiber-Reinforced Composites: Materials, Manufacturing, and Design”

 

HEAT AND MASS TRANSFER PHENOMENA IN COMPOSITES AND POLYMERS (ING-IND/24)
PROCESSING AND PROPERTIES OF COMPOSITE MATERIALS FOR AERONAUTICS

Degree course AEROSPACE ENGINEERING

Subject area ING-IND/24

Course type Laurea Magistrale

Credits 9.0

Teaching hours Ore totali di attività frontale: 81.0

For matriculated on 2018/2019

Year taught 2019/2020

Course year 2

Semestre Secondo Semestre (dal 02/03/2020 al 05/06/2020)

Language INGLESE

Subject matter AEROSPACE DESIGN (A59)

Location Brindisi

knowledge of solid mechanics and materials science and technology

This course provides a strong interdisciplinary approach to composite materials in view of their application in aeronautic structure. Competences on polymer matrices and reinforcements, mechanics of anisotropic materials, fabrication technologies of thermoplastic and thermosetting matrix composites are provided. 

Knowledge and understanding:

The course provides the basis  of knowledge to understand and solve complex new problems  in design and  processing of composite materials accounting for anisotropy and reactive processing

Applying knowledge and understanding

The student will be able to apply the basic knowledge on mechanics of anisotropic materials to the design of simple structural elements. A multidisciplinary approach is presented accounting for chemical, materials and mechanical engineering aspects.

Making judgements

Simplification and synthesis  of complex problems is presented in order to promote the judgement and evaluation capabilities of the students

Communication

The course promotes the development of the following skills of the student: ability to expose in precise and formal terms an abstract model of concrete problems, identifying the salient characteristics of them and discarding the inessential characteristics; ability to describe and analyze an efficient solution for the problem under consideration. A seminar on composite properties is assigned to students

Learning skills

Autonomous learning is promoted thanks to the use of: different books and slides,  numerical methods, homework exercise to be solved in groups of two. 

Lessons, practice with a software implenting micro and macromechanic of composite materials, visit to an industrial plant. Self evaluation tests after  each topic by Kahoot

Oral exam after a seminar on composite properties and a homework .

Introduction (2 h.)

Reinforcement materials (5 h)
Thermosetting and thermoplastic matrices and core materials. (6 h.)
Micromechanic. (15 h.)
Mcromechanic. (15 h. )

Properties (4 h.)
Fabrication technologies of polymer matrix materials (30 h.)
A visit to at least an industrial plan is programmed (4 h.)

See the file in the field "materiale didattico"

PROCESSING AND PROPERTIES OF COMPOSITE MATERIALS FOR AERONAUTICS (ING-IND/24)
HEAT AND MASS TRANSFER PHENOMENA IN COMPOSITES AND POLYMERS

Degree course MATERIALS ENGINEERING AND NANOTECHNOLOGY

Subject area ING-IND/24

Course type Laurea Magistrale

Credits 9.0

Teaching hours Ore totali di attività frontale: 81.0

For matriculated on 2017/2018

Year taught 2018/2019

Course year 2

Semestre Primo Semestre (dal 24/09/2018 al 21/12/2018)

Language INGLESE

Subject matter PERCORSO COMUNE (999)

Location Lecce

Knowledge of transport phenomena and polymer physics and chemistry.

 This course provides a strong interdisciplinary approach to composite materials in view of their application in aeronautic structure. Competences on polymer matrices and reinforcements, mechanics of anisotropic materials, fabrication technologies of thermoplastic and thermosetting matrix composites are provided. Also ceramic matrix materials are presented with special attention to their processing and properties.

Knowledge and understanding:

The course provides the basis  of knowledge to understand and solve complex new problems  in materials processing and in mass and heat diffusion,  applying ideas often in a research context

Applying knowledge and understanding

The student will be able to solve heat and mass balances, applied to materials processing, using approximate solution or numerical methods. A multidisciplinary approach is presented accounting for chemical, materials and mechanical engineering aspects.

Making judgements

Dimensionless and approximate methods are presented in order to promote the judgement and evaluation capabilities of the students

Communication

The course promotes the development of the following skills of the student: ability to expose in precise and formal terms an abstract model of concrete problems, identifying the salient characteristics of them and discarding the inessential characteristics; ability to describe and analyze an efficient solution for the problem under consideration.

Learning skills

Autonomous learning is promoted thanks to the use of: different books and slides,  numerical methods, homework exercise to be solved in groups of two

Oral after a homework . A homework regarding modeling topics, and an associated finite element solution of the related differential equations, is assigned to students. During the exams the homework is discussed and if the results are satisfactory an oral stage is started with questions regarding the main topics of the course

Introduction, thermosetting composite matrices (12 hours).
Basic principles of the processing of thermosetting matrix composites: autoclave lamination as case study (20 hours).
Process modeling through numerical solution of differential equations (10 hours).
Modeling approach to filament winding, pulrusion, RTM and other processes (16 hours).
Processing of thermoplastic composites (10 hours).
Visit to industrial plants (8 hours).
Mass transport in polymers: technological and modeling issues (12 hours).
Industrial plant visits are programmed. A full day to the Journée européenne de composites (JEC) in Paris (France), the most relevant world fair on materials and processes for composites, is organized if adequate financial support is provided by University to students.

Slides in *.ppt format available at the intranet of dipartimento di ingegneria dell'innovazione

Crank “Mathematics of diffusion”

D. S. Burnett “Finite Element Analysis: From Concepts to Applications”

P.K. Mallick “Fiber-Reinforced Composites: Materials, Manufacturing, and Design”

 

HEAT AND MASS TRANSFER PHENOMENA IN COMPOSITES AND POLYMERS (ING-IND/24)
PROCESSING AND PROPERTIES OF COMPOSITE MATERIALS FOR AERONAUTICS

Degree course AEROSPACE ENGINEERING

Subject area ING-IND/24

Course type Laurea Magistrale

Credits 9.0

Teaching hours Ore totali di attività frontale: 81.0

For matriculated on 2017/2018

Year taught 2018/2019

Course year 2

Semestre Secondo Semestre (dal 04/03/2019 al 04/06/2019)

Language INGLESE

Subject matter AEROSPACE DESIGN (A59)

Location Brindisi

knowledge of solid mechanics and materials science and technology

This course provides a strong interdisciplinary approach to composite materials in view of their application in aeronautic structure. Competences on polymer matrices and reinforcements, mechanics of anisotropic materials, fabrication technologies of thermoplastic and thermosetting matrix composites are provided. 

Knowledge and understanding:

The course provides the basis  of knowledge to understand and solve complex new problems  in design and  processing of composite materials accounting for anisotropy and reactive processing

Applying knowledge and understanding

The student will be able to apply the basic knowledge on mechanics of anisotropic materials to the design of simple structural elements. A multidisciplinary approach is presented accounting for chemical, materials and mechanical engineering aspects.

Making judgements

Simplification and synthesis  of complex problems is presented in order to promote the judgement and evaluation capabilities of the students

Communication

The course promotes the development of the following skills of the student: ability to expose in precise and formal terms an abstract model of concrete problems, identifying the salient characteristics of them and discarding the inessential characteristics; ability to describe and analyze an efficient solution for the problem under consideration. A seminar on composite properties is assigned to students

Learning skills

Autonomous learning is promoted thanks to the use of: different books and slides,  numerical methods, homework exercise to be solved in groups of two. 

Lessons, practice with a software implenting micro and macromechanic of composite materials, visit to an industrial plant

Oral exam after a seminar on composite properties and a homework .

ntroduction, reinforcement materials (12 hours).
Thermosetting and thermoplastic matrices and core materials (8 hours).
Micromechanic (10 hours).
Mcromechanic (20 hours).

Properties (4 hours)
Fabrication technologies of polymer matrix materials (28hours).
A visit to at least an industrial plan is programmed

See the file in the field "materiale didattico"

PROCESSING AND PROPERTIES OF COMPOSITE MATERIALS FOR AERONAUTICS (ING-IND/24)
HEAT AND MASS TRANSFER PHENOMENA IN COMPOSITES AND POLYMERS

Degree course MATERIALS ENGINEERING AND NANOTECHNOLOGY

Subject area ING-IND/24

Course type Laurea Magistrale

Credits 9.0

Teaching hours Ore totali di attività frontale: 81.0

For matriculated on 2016/2017

Year taught 2017/2018

Course year 2

Semestre Primo Semestre (dal 25/09/2017 al 22/12/2017)

Language INGLESE

Subject matter PERCORSO COMUNE (999)

Location Lecce

HEAT AND MASS TRANSFER PHENOMENA IN COMPOSITES AND POLYMERS (ING-IND/24)
PROCESSING AND PROPERTIES OF COMPOSITE MATERIALS FOR AERONAUTICS

Degree course AEROSPACE ENGINEERING

Subject area ING-IND/24

Course type Laurea Magistrale

Credits 9.0

Owner professor Alfonso MAFFEZZOLI

Teaching hours Ore totali di attività frontale: 81.0

  Ore erogate dal docente Alfonso MAFFEZZOLI: 54.0

For matriculated on 2016/2017

Year taught 2017/2018

Course year 2

Semestre Secondo Semestre (dal 01/03/2018 al 01/06/2018)

Language INGLESE

Subject matter AEROSPACE DESIGN (A59)

Location Brindisi

PROCESSING AND PROPERTIES OF COMPOSITE MATERIALS FOR AERONAUTICS (ING-IND/24)
HEAT AND MASS TRANSFER PHENOMENA IN COMPOSITES AND POLYMERS

Degree course MATERIALS ENGINEERING AND NANOTECHNOLOGY

Subject area ING-IND/24

Course type Laurea Magistrale

Credits 9.0

Teaching hours Ore totali di attività frontale: 81.0

For matriculated on 2015/2016

Year taught 2016/2017

Course year 2

Semestre Primo Semestre (dal 26/09/2016 al 22/12/2016)

Language INGLESE

Subject matter PERCORSO COMUNE (999)

Location Lecce

HEAT AND MASS TRANSFER PHENOMENA IN COMPOSITES AND POLYMERS (ING-IND/24)
PROCESSING AND PROPERTIES OF COMPOSITE MATERIALS FOR AERONAUTICS

Degree course AEROSPACE ENGINEERING

Subject area ING-IND/24

Course type Laurea Magistrale

Credits 9.0

Owner professor Alfonso MAFFEZZOLI

Teaching hours Ore totali di attività frontale: 81.0

  Ore erogate dal docente Alfonso MAFFEZZOLI: 54.0

For matriculated on 2015/2016

Year taught 2016/2017

Course year 2

Semestre Secondo Semestre (dal 01/03/2017 al 02/06/2017)

Language INGLESE

Subject matter AEROSPACE DESIGN (A59)

Location Brindisi

PROCESSING AND PROPERTIES OF COMPOSITE MATERIALS FOR AERONAUTICS (ING-IND/24)
HEAT AND MASS TRANSFER PHENOMENA IN COMPOSITES AND POLYMERS

Corso di laurea MATERIALS ENGINEERING AND NANOTECHNOLOGY

Settore Scientifico Disciplinare ING-IND/24

Tipo corso di studio Laurea Magistrale

Crediti 9.0

Ripartizione oraria Ore totali di attività frontale: 0.0

Per immatricolati nel 2014/2015

Anno accademico di erogazione 2015/2016

Anno di corso 2

Semestre Primo Semestre (dal 21/09/2015 al 18/12/2015)

Lingua

Percorso PERCORSO COMUNE (999)

Sede Lecce - Università degli Studi

HEAT AND MASS TRANSFER PHENOMENA IN COMPOSITES AND POLYMERS (ING-IND/24)
PROCESSING AND PROPERTIES OF COMPOSITE MATERIALS FOR AERONAUTICS

Corso di laurea AEROSPACE ENGINEERING

Settore Scientifico Disciplinare ING-IND/24

Tipo corso di studio Laurea Magistrale

Crediti 9.0

Ripartizione oraria Ore totali di attività frontale: 0.0

Per immatricolati nel 2014/2015

Anno accademico di erogazione 2015/2016

Anno di corso 2

Semestre Secondo Semestre (dal 29/02/2016 al 03/06/2016)

Lingua

Percorso AEROSPACE DESIGN (A59)

Sede BRINDISI

PROCESSING AND PROPERTIES OF COMPOSITE MATERIALS FOR AERONAUTICS (ING-IND/24)
COMPOSITE AND NANOCOMPOSITE MATERIALS

Corso di laurea MATERIALS ENGINEERING AND NANOTECHNOLOGY

Settore Scientifico Disciplinare ING-IND/22

Tipo corso di studio Laurea Magistrale

Crediti 6.0

Ripartizione oraria Ore totali di attività frontale: 0.0

Per immatricolati nel 2013/2014

Anno accademico di erogazione 2014/2015

Anno di corso 2

Semestre Primo Semestre (dal 29/09/2014 al 13/01/2015)

Lingua

Percorso PERCORSO COMUNE (999)

Sede Lecce - Università degli Studi

COMPOSITE AND NANOCOMPOSITE MATERIALS (ING-IND/22)
HEAT AND MASS TRANSFER PHENOMENA IN COMPOSITES AND POLYMERS

Corso di laurea MATERIALS ENGINEERING AND NANOTECHNOLOGY

Settore Scientifico Disciplinare ING-IND/24

Tipo corso di studio Laurea Magistrale

Crediti 9.0

Ripartizione oraria Ore totali di attività frontale: 0.0

Per immatricolati nel 2013/2014

Anno accademico di erogazione 2014/2015

Anno di corso 2

Semestre Primo Semestre (dal 29/09/2014 al 13/01/2015)

Lingua

Percorso PERCORSO COMUNE (999)

Sede Lecce - Università degli Studi

HEAT AND MASS TRANSFER PHENOMENA IN COMPOSITES AND POLYMERS (ING-IND/24)
PROCESSING AND PROPERTIES OF COMPOSITE MATERIALS FOR AERONAUTICS

Corso di laurea AEROSPACE ENGINEERING

Settore Scientifico Disciplinare ING-IND/22

Tipo corso di studio Laurea Magistrale

Crediti 9.0

Ripartizione oraria Ore totali di attività frontale: 0.0

Per immatricolati nel 2013/2014

Anno accademico di erogazione 2014/2015

Anno di corso 2

Semestre Secondo Semestre (dal 02/03/2015 al 06/06/2015)

Lingua

Percorso AEROSPACE DESIGN (A59)

Sede BRINDISI

PROCESSING AND PROPERTIES OF COMPOSITE MATERIALS FOR AERONAUTICS (ING-IND/22)

Pubblicazioni

Pubblicazioni su riviste internazionali:

  1. A. Maffezzoli, J.M. Kenny, L.Nicolais "Welding of PEEK/Carbon Fiber Composite laminates" Sampe Journal., 25, (1989) pp. 35-39.
  2. J.M. Kenny, A. Maffezzoli, L.Nicolais "A model for the thermal and chemorheological behavior of thermoset processing: II) Unsatured polyester based composites" Composite Science and Technology, 38, , (1990) pp. 339-358
  3. A. Maffezzoli, J.M. Kenny, L.Nicolais "Mathematical modeling of the resin transfer molding of polyester based composite", Polimery, , gennaio 1990 pp. 5-9.
  4. J.M. Kenny e A. Maffezzoli, "Crystallization kinetics of Poly(Phenylene sulfide) (PPS) and PPS/carbon fiber reinforced composites" Polymer Engineering and Science 31, (1991) pp. 607-614
  5. A. Maffezzoli, J.M. Kenny and L. Nicolais, "Thermal Analysis of thermoplastic matrices for advanced composites materials: Poly(Phenilene Sulfide)" Thermochimica Acta, 199, (1992) p. 133-146.
  6.  J.M. Kenny e A. Maffezzoli, "Modelling of welding processes for thermoplastic matrix composites", Composite Polymers, 4, (1991) pp 12-24
  7. A. Trivisano, A. Maffezzoli, J.M. Kenny and L. Nicolais, "Mathematical modeling of the pultrusion of epoxy based composites", Advances in Polymer Technology. 10, (1990) p. 251-264
  8.     J.M. Kenny, A Maffezzoli and L. Nicolais, "Modeling of the dynamic mechanical properties of semicrystalline thermoplastic matrix composites", Polymer Composites, 5, (1992) p. 386-393.
  9.     A. Maffezzoli, L. Peterson, J.C. Seferis, J.M. Kenny, L. Nicolais, "Dielectric characterization of water sorption in epoxy resin matrices" Polymer Engineering and Science 33, (1993) p. 75-82.
  10.     J.M. Kenny, A Maffezzoli e L. Nicolais, "A macrokinetic approach to crystallization modeling of semicrystalline thermoplastic matrices for advanced composites", Journal of Material Science 28, (1993) pp. 4994-5001
  11.     J. Mijovic, J.M. Kenny, A. Maffezzoli, A. Trivisano, F. Bellucci e L. Nicolais, "The principles of dielectric mesurements for in-situ monitoring of composite processing" Composites Science and Technology 49, , (1993) pp. 277-290
  12.     J.M. Kenny, A. Maffezzoli e L. Nicolais "A new kinetic model for polymer crystallization by calorimetric analysis" Thermochimica Acta 227, pp. 83-95 (1993).
  13.     A.Maffezzoli, A.Trivisano, M.Opalicki, J.M. Kenny, J. Mijovic, e L. Nicolais "Correlation between dielectric and chemorheological properties during cure of epoxy based composites" Journal of Material Science 29, (1994), pp. 800-808
  14. A. Maffezzoli, A. Della Pietra, S. Rengo, L. Nicolais e G. Valletta "Photopolymerization of dental composite matrices" Biomaterials 15, pp. 1221-1228, (1994).
  15. A. Maffezzoli, R. Terzi e L. Nicolais "Cure behaviour of visible light activated dental composite. I Isothermal kinetcs" Journal of Materials Science: Materials in Medicine, 6, (1995) pp. 155-160
  16. A. Maffezzoli, R. Terzi, e L. Nicolais "Cure behaviour of visible light activated dental composite. II Non-isothermal kinetics" Journal of Materials Science: Materials in Medicine, 6, (1995) pp. 161-166
  17. L. Torre, A. Maffezzoli e J.M. Kenny "A macrokinetic approach to crystallization applied to New TPI (Thermoplastic Polyimide) as a model polymer" Journal of Applied Polymer Science 56 , (1995) pp. 985-993
  18. L. Torre, A. Maffezzoli e L. Nicolais, "Process modelling of thermoset based composites" , Revue de l'insitut francais du pétrole, 50 N. 1, , (1995) pp. 135-139
  19. A. Maffezzoli, J.M. Kenny e L.Torre "About the physical dimensions of the Avrami constant" Thermochmica Acta, 269, , (1995) pp.185-190
  20. A. Maffezzoli e R. Terzi "Thermal analysis of visible light activated dental composites", Thermochmica Acta 269/270, , (1996) pp. 319-335
  21. A. Maffezzoli, V. Luprano, F Esposito G. Montagna e L. Nicolais "Ultrasonic wave attenuation during water sorption in poly(2-hydroxy-ethyl-methacrylate) hydrogels" Polymer Engineering and Science, Vol 36, , (1996) p.1832-1838
  22. A. Maffezzoli, "Polymerization kinetics of acrylic bone cements by differential scanning calorimetry" Journal of thermal analysis, Vol 47, 1996, p.35-49
  23. V.A.M. Luprano, A. Maffezzoli, G. Montagna, "A study of the water sorption kinetic of poly(hema) hydrogels by SLAM and FTIR measurements" IEEE ultrasonics, Ferroelectrics and Frequency Control Society Transactions, Vol. 43, No. 5 (1996) p.948-955.
  24. A.Maffezzoli, "Bulk crystallization kinetics of New TPI (Thermoplastic poly Imide) by differential calorimetric analysis" Materials Science Forum Vol. 203  (1996) pp. 25-30.
  25. A. Maffezzoli, D. Ronca, G. Guida, I. Pochini e L. Nicolais, "In situ polymerization of acrylic bone cements" Journal of Materials Science: Materials in Medicine, vol. 8 (1997) pp. 75-83
  26. A. Maffezzoli, L. Torre and J. M. Kenny "Determination of the crystallization enthalpy of New-TPI" Journal of Applied Polymer Science Vol. 67 No. 4, (1998) pp. 763-766.
  27. A. Maffezzoli, V.A.M. Luprano, G. Montagna and L.Nicolais "Ultrasonic characterization of water sorption in Poly(2-Hydroxyethyl Methacrylate) hydrogels" Journal of Applied Polymer Science Vol. 67 No. 5, (1998) pp. 823-831.
  28. L. Torre, J.M. Kenny e A. Maffezzoli, "Degradation behavior of a composite material for thermal protection systems. Part-I experimental characterization" Journal of Materials Science vol 33 (1998) pp. 3137-3143.
  29. L. Torre, J.M. Kenny e A. Maffezzoli, "Degradation behavior of a composite material for thermal protection systems. Part-II process simulation" Journal of Materials Science vol 33 (1998) pp. 3145-3149.
  30. A. Maffezzoli, R. Terzi "Effect of irradiation intensity on the isothermal photopolymerization kinetics of acrylic resins for stereolithography" Thermochimica Acta,  Vol 321 (1998) pp. 111-121.
  31. A. Maffezzoli, A. Tarzia, D. Cannoletta G. Montagna e V.A.M. Luprano “Ultrasonic characterization of the kinetics of water sorption in hydrogels” Macromolecular Symposia, vol 138 (1999) pp. 149-155.
  32. A. Maffezzoli, E. Quarta, V.A.M. Luprano, G. Montagna, L.Nicolais “Cure monitoring of epoxy matrices for composites by ultrasonic wave propagation” Journal of Applied Polymer Science, vol. 73 (1999) pp.1969-1977.
  33. L. Torre, J. M. Kenny, G.Boghetich and A. Maffezzoli, “Degradation behaviour of a composite material for thermal protection systems. III: Char characterization” Journal of Materials Science vol 35 (2000) p. 4563 - 4566.
  34. M. Frigione, A. Maffezzoli, D. Acierno, V.A.M. Luprano, G. Montagna, “Non destructive and in-situ monitoring of mechanical properties build up in epoxy adhesives for civil applications by propagation of ultrasonic waves” Polymer Engineering and Science, Vol. 40 No. 3 (2000) pp. 656-664
  35. L. Torre, J.M. Kenny, A. Recca, V Siracusa, A. Tarzia, and A. Maffezzoli, Crystallization of an aromatic Poly-ether-ketone (PK99) by calorimetric and X-ray analysis”, Journal of thermal analysis Vol. 61 (2000) pp. 565-578.
  36. A.Licciulli, A. Greco e A. Maffezzoli, “Development of a pre-ceramic suspension for the free form fabrication of ceramic parts by stereolithography " Industrial ceramics Vol. 20 n. 2, (2000) pp. 97-99
  37. V.A.M. Luprano, G. Montagna, B. Molinas A. Maffezzoli, “Glass-Rubber phase transformation detected in hydrogels by ultrasonic waves” journal of alloys and compounds vol 310 (2000) pp. 382-387
  38. F. Micelli, A. Maffezzoli, R. Terzi and V.A.M. Luprano “ Characterisation of the Kinetic behaviour of resin Modified Glass-Ionomer Cements by DSC, TMA and ultrasonic wave propagation” ” Journal of Materials Science: Materials in Medicine, Vol 12, (2001) p. 151-156
  39. S. Iannace, A. Maffezzoli, G. Leo e L. Nicolais “Influence of crystal and amorphous phase morphology on hydrolitic degradation of PLLA subjected to different processing conditions” Polymer , Vol. 42 (2001) p. 3799-3807
  40. A. Greco A.Licciulli e A. Maffezzoli, “Stereolithography of ceramic suspensions” Journal of Materials Science Vol 36 (2001) p. 99-105.
  41. A. Greco, M. Frigione, A. Maffezzoli, D. Acierno “Rotational moulding of recycled HDPE” Polymer Recycling, Vol 6 (2001) p. 23-33
  42. G. Camino, A. Maffezzoli, M. Braglia, M. De Lazzaro, M. Zammarano, “Effects of inorganic hydroxides structure on fire retardant effectiveness and mechanical properties in ethylene-vinyl acetate copolymers” Polymer degradation and stability, vol 74 (2001) p.457-464.
  43. M. Frigione, A. Maffezzoli e V.A.M. Luprano “Application of ultrasonic wave propagation to the cure monitoring of epoxy adhesives for restoration of concrete” Journal Polymer Engineering, Vol 21, (2001) pp.445-468
  44. C. Pindinelli, G. Montagna, V.A.M. Luprano e A. Maffezzoli “Network development during epoxy curing: experimental ultrasonic data and theoretical predictions” Macromolecular Symposia, vol. 180 (2002) 73-88.
  45. P.Lingois, L. Berglund, A.Greco and A. MaffezzoliChemically induced residual stresses in dental composites” J. of Materials Science, Vol. 38 (2003) pp1321-1331
  46. A. Licciulli, A. Maffezzoli, D. Diso, S. Tundo, M. Rella, G. Torsello e M. Mazzer, “ Sol gel preparation of selective emitters for thermophotovoltaic conversion” J. Of Sol-Gel Science and Technology, Vol. 26 (2003) 1119-1123.
  47. D. Diso, A.Licciulli, A. Bianco, M. Lomascolo, G. Leo, M. Mazzer, S. Tundo, G. Torsello e A. Maffezzoli, “Erbium containing ceramic emitters for thermophotovoltaic energy conversion” Materials Science and Engineering: part B, Vol 98 (2003) pp.144-149.
  48. A.Licciulli, D. Diso, G. Torsello, S. Tundo, A. Maffezzoli, M. Lomascolo e M. Mazzer “The challenge of high performance selective emitters for thermophotovoltaic applications” Semiconductor Science and Technology Vol. 18 (2003) pp. 174-183.
  49. A. Greco, A. Maffezzoli and J. Vlachopoulos, “Simulation of heat transfer during rotational moulding” Advances in Polymer Technology Vol. 22 (2003) N. 4 pp.271-279.
  50. M. Frigione, A. Maffezzoli, P. Finocchiaro, S. Failla, “Cure kinetics and properties of epoxy resins containing a phosphorous-based flame retardant” Advances in Polymer Technology Vol. 22 (2003) N. 4 pp. 329-342.
  51. C. Esposito Corcione, A. Greco, A. MaffezzoliPhotopolymerization kinetics of an epoxy based resin for stereolithography” J. of Thermal Analysis and Calorimetry, Vol. 72 (2003) pp. 687-693.
  52. F. Lionetto, A. Sannino, G. Mensitieri, A. Maffezzoli, “Evaluation of the degree of crosslinking of cellulose-based hydrogels: a comparison between different techniques”, Macromolecular Symposia  Vol. 200 (2003) pp. 199-207.
  53. A. Greco e A. Maffezzoli, “Statistical and kinetic approaches for LLDPE melting modeling” J. of Applied polymer Science, Volume 89, (2003), pp:289-295
  54. A. Sannino, A. Maffezzoli, L. Nicolais, “Introduction of molecular spacers between the crosslinks of a cellulose-based superabsorbent hydrogel: Effects on the equilibrium sorption properties” J. of applied polymer science Vol. 90, (2003), pp. 168-174.
  55. A. Greco, A. Maffezzoli, “Polymer melting and polymer powder sintering by thermal analysis” J. of Thermal Analysis and Calorimetry, Vol 72, pp 1167–1174 (2003) DOI:J10.1023/A:1025096432699
  56. A. Passaro, P. Corvaglia, O. Manni, L. Barone and A. MaffezzoliProcessing-properties relationship of sandwich panels with polypropylene-core and polypropylene-matrix composite skins”  Polymer Composites Vol 25(3) (2004) pp. 307-318
  57. A. Sannino, M. Madaghiele, F. Conversano, G. Mele, A. Maffezzoli, P.A. Netti, L. Ambrosio, L. Nicolais “Cellulose derivatives-hyaluronic acid based microporous hydrogel crosslinked through DVS to modulating equilibrium sorption capacity and network stability” Biomacromolecules, vol 5 (2004), pp. 92-96.
  58. F. Lionetto, R. Rizzo, V.A.M. Luprano, A. Maffezzoli, "Phase transformations in unsaturated polyester resins during the cure", Materials Science and Engineering: A-structural materials properties, microstructure and processing, vol 370, (2004) pp. 284-287
  59. F. Lionetto, A. Licciulli, F. Montagna, A. Maffezzoli, Piezoceramics: an introductive guide to their practical applications”, Ceramurgia/Ceramica Acta (C+CA), Vol. 34, (2004) , pp. 107-127
  60. A. Greco and A. Maffezzoli Powder shape analysis and sintering behavior of high density polyethylene powders for rotational molding” Journal of Applied Polymer Science, Vol. 92, (2004), pp. 449–460
  61. C. Esposito Corcione, A. Greco and A. MaffezzoliPhotopolymerization kinetics of an epoxy based resin for stereolithography” Journal of Applied Polymer Science vol. 92, (2004), pp. 3484-3491.
  62. Alfonso Maffezzoli, Emanuela Calò, Simona Zurlo, Giuseppe Mele, Antonella Tarzia, Cristina Stifani “Cardanol based matrix biocomposites reinforced with natural fibres” Composite Science and Technology, Vol 64, (2004) pp. 839-845
  63. M. Frigione, E. Calò, A. Maffezzoli, C. Carfagna, G. Malucelli “Kinetics Studies of Liquid Crystalline and Isotropic Vinyl Ester Resins”Macromolecular Chemistry & Physics, Vol. 205, pp. 2175-2184 (2004).
  64. A.Licciulli, A. Maffezzoli, D.Diso, M.Mazzer, G.Torsello, S.Tundo, “Porous garnet coatings tailoring the emissivity of thermostructual materials” Journal of Sol-Gel Science and technology, vol 32 pp247–251 (2004).
  65. A. Licciulli, C. Esposito Corcione, A. Greco, V. Amicarelli and A. Maffezzoli “Laser stereolitography of ZrO2 toughened Al2O3”, Journal of European Ceramic Society, vol 25 (2004) pp.1581-1589. doi:10.1016/j.jeurceramsoc.2003.12.024
  66. F. Lionetto, A.Maffezzoli, M.A.Ottenhof, I.A. Farhat, J.R. MitchellThe Retrogradation of Concentrated Wheat Starch SystemsStarch/Stärke 57 (2005) pp.16–24
  67. F. Lionetto e A. MaffezzoliRelaxations during post-cure of unsaturated polyester networks by ultrasonic wave propagation, dynamic mechanical analysis and dielectric analysis” J. of Polymer Science: Part B Polymer physics, Vol. 43, (5), (2005) pp. 596-602
  68. C. Esposito Corcione, A. Greco, F. Montagna, A. Licciulli and A. Maffezzoli, “Silica moulds built by stereolithography”, J. of Materials Science, vol 40 (2005) pp.1-6
  69. A. Sannino, A. Maffezzoli, L. Vasanelli, A. Ficarella, S. Capone, P. Siciliano “Monitoring the drying process of lasagna pasta through a novel sensing device-based method” J. of Food engineering Vol 69 (2005), pp. 51-59
  70. F. Lionetto, A. Sannino, A. Maffezzoli, “Ultrasonic monitoring of the network formation in superabsorbent cellulose based hydrogels” Polymer vol 46 (2005) pp 1796-1803
  71. A. Sannino, D. Larobina, G. Mensitieri A. Aldi and A. Maffezzoli, “Simultaneous Gravimetric and Calorimetric Analysis of Chloroform Sorption in Nanoporous Semicrystalline sPS” J. of Applied Polymer Science Vol. 96 (2005) pp.1675-1681.
  72. A. Greco, A. Maffezzoli, O.Manni “Development of polymeric foams from recycled polyethylene and recycled gypsum” Polymer Degradation and Stability 90 (2005) pp.256-263
  73. A. Sannino, F. Conversano, A. Esposito, A. Maffezzoli, “Polimeric meshes for internal sutures with differentiated adhesion on the two sides” J. of Materials science: materials in medicine vol. 16 (2005) pp. 289-296
  74. Carola Esposito Corcione, Antonio Greco and Alfonso Maffezzoli, “Time- temperature and time- irradiation intensity superposition for photopolymerization of an epoxy based resin”  Polymer 46 (2005) p. 8018–8027
  75. Francesca Lionetto, Francesco Montagna, Alfonso MaffezzoliUltrasonic Dynamic Mechanical Analysis of Polymers” Applied Rheology15:5 (2005) p.326-335.
  76. A. Sannino, S. Pappadà, M- Madaghiele, A. Maffezzoli, L. Ambrosio, L. NicolaisCrosslinking of cellulose derivatives and hyaluronic acid with water-soluble carbodiimidePolymer Vol. 46, (2005) p. 11206-112122
  77. A. Sannino, P.A. Netti, M. Madaghiele, V. Coccoli, A. Luciani, A. Maffezzoli, L. Nicolais ”Synthesis and charcterization of microporous PEG-based hydrogels” Journal of Biomedical Materials Research: part A  Vol 79A (2006) p.229-237
  78. C. Esposito Corcione, A. Greco, A. Licciulli e A. Maffezzoli, “Free form fabrication of silica moulds for aluminium casting by stereolithography” Rapid Prototyping Journal vol. 12/4 (2006) p.184-188.
  79. P. Corvaglia, A. Passaro, O. Manni, L. Barone and A. Maffezzoli, “Recycling of PP-based sandwich panels with continuous fibers composite skins”J. of Thermoplastic composite materials, Vol. 19, (2006) p.731-745.
  80. A: Greco, C.Esposito Corcione e A. Maffezzoli, “Temperature evolution during stereolithography building with a commercial epoxy resin” Polymer Engineering e Science, Vol 46, (2006), p. 493-502.
  81. Pedro Miguel Romero Tendero, Alfonso Jimenez, Antonio Greco, Alfonso MaffezzoliViscoelastic and thermal characterization of crosslinked PVC” European Polymer Journal, vol 42 (2006) p. 961-969
  82. Francesca Lionetto., Alfonso Maffezzoli, Marie-Astrid Ottenhof, Imad A. Farhat, John R. Mitchell “Ultrasonic investigation of wheat retrogradation” J. of food engineering, Vol 75/2 (2006) pp 258-266
  83. M. Frigione, E. Calo` ,A. Maffezzoli, D. Acierno, C. Carfagna, V. Ambrogi “Preformed Microspherical Inclusions for Rheological Control and Physical Property Modification of Epoxy Resins” J. of Applied Polymer Science Vol 100 (2006) pp. 748-757.
  84. A. Licciulli, A. Chiechi, D. Diso and A. Maffezzoli, “Ceramic composites for automotive friction devices” Advances in Science and Technology Vol. 45 (2006) p. 1394-1398
  85. A. Sannino, M. Madaghiele, M. G. Lionetto, T. Schettino, A. Maffezzoli, “A cellulose-based hydrogel as a potential bulking agent for hypocaloric diets: An in vitro biocompatibility study on rat intestine” Journal of Applied Polymer Science Volume 102, Issue 2, Pages:1524-1530 (2006)
  86. A. Greco, C. Musardo, A. Maffezzoli, “Flexural creep behaviour of PP matrix woven composite” Composite Science and Technology vol. 67 (2007) p. 1148-1158
  87. Francesca Lionetto, Antonella Tarzia, Miriam Coluccia, Alfonso MaffezzoliAir-Coupled Ultrasonic Cure Monitoring of Unsaturated Polyester Resins” Macromolecular Symposia vol 247 (2007) p. 50-58
  88. Francesca Lionetto, Giacomo Coluccia, Paolo D’Antona, Alfonso MaffezzoliGelation of waxy crude oils by ultrasonic and dynamic mechanical analysis” Rheologica Acta, Vol 46 (2007) pp. 601-609
  89. F. Lionetto, A. Tarzia, A. MaffezzoliAir-coupled ultrasound: a novel technique for monitoring the curing of thermosetting matrices”, IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency vol. 54, no. 7 (2007) 1437-1443.
  90. Emanuela Calò, Giuseppe Mele, Alfonso Maffezzoli, Antonella Tarzia, Cristina Stifani and Selma E. Mazzetto “Synthesis of a Novel Benzoxazine Monomer Cardanol-Based and Environmentally Sustainable Production of Polymers and Bio-Composites” Green Chemistry vol. 9 (2007) 705-812
  91. A. Sannino, S. Pappadà, L.Giotta, L. Valli, and  A. Maffezzoli “Spin coating of cellulose derivatives on QCM plates to obtain hydrogel-based fast sensors and actuator” Journal of Applied Polymer Science, vol. 106, (2007), P.3040-3050
  92. C. Demitri, L. Mercurio, F. Montagna, A. Sannino, A. MaffezzoliAcrylic based hydrogel phantom for in-vitro ultrasound contrast agent characterization” Virtual and Physical Prototyping Vol 2(4), (2007) pp. 191-196
  93. A. Salomi, A. Greco, F. Felline, O. Manni, A. Maffezzoli, “A preliminary study on bladder-assisted rotomolding of thermoplastic polymer composites” Advances in Polymer Technology, Vol 26 N. 1 (2007) pp. 21-32.
  94. C. Esposito Corcione, A. Fasiello, and  A. Maffezzoli, “Synthesis and characterization of bohemite reinforced epoxy nanocomposites” J. of Nanostructured polymers and Nanocomposites vol. 3 (2007) pp. 82-89
  95. A. Greco, A. Maffezzoli, “Correction of melting peaks of different PE grades accounting for heat transfer in DSC samples” Polymer Testing vol 27 (2008) p.61-74
  96. C. Esposito Corcione, P. Prinari, D. Cannoletta, G. Mensitieri, A. MaffezzoliSynthesis and characterization of clay–nanocomposite solvent based polyurethane adhesives” International Journal of Adhesion and Adhesives vol 28 (2008) pp. 91-100.
  97. C. Esposito Corcione, M. Frigione, A. Maffezzoli , G. Malucelli “Photo – DSC and real time – FT-IR kinetic study of a UV curable epoxy resin containing o-Boehmites” European Polymer Journal Vol 44 (2008) pp.2010–2023
  98. Christian Demitri, Roberta Del Sole, Francesca Scalera, Alessandro Sannino, Giuseppe Vasapollo, Alfonso Maffezzoli, Luigi Ambrosio, Luigi Nicolais “Novel Superabsorbent Cellulose-Based HydrogelsCrosslinked with Citric Acid” Journal of Applied Polymer Science, vol. 110 (2008) pp. 2453-2460
  99. A. Salomi, T. Garstka, K. Potter, A. Greco, Alfonso Maffezzoli "Spring-in angle as molding distortion for thermoplastic matrix composite" Composite Science and  Technology 68 (2008) pp. 3047–3054.
  100. C. Pio, A. Greco, A. Maffezzoli, A. Marseglia, “Efficient utilization of plastic waste through product design and process adaptation: a case study on stiffness enhancement of beams produced from plastic lumber” Advances in Polymer Technology, Vol. 27, No. 3, pp. 133–142 (2008).
  101. Demitri, Christian; Sannino, Alessandro; Conversano, Francesco, Casciaro, Sergio, Distante, Alessandro,Alfonso MaffezzoliHydrogel Based Tissue Mimicking Phantom for in-vitro Ultrasound Contrast Agents Studies” Journal of Biomedical Materials Research: Part B - Applied Biomaterials Vol. 87, Issue 2, pp. 338-345 (2008)
  102. Francesca Lionetto,  Alfonso Maffezzoli, "Polymer characterization by ultrasonic wave propagation" Advances in Polymer Technology Vol 27 pp. 63-73 (2008).
  103. Mauro Pollini; Alfonso Maffezzoli; Alessandro Sannino; Antonio Licciulli, L. Nicolais"Development of Silica Aerogel by not Supercritical method" Journal of applied polymer science, Volume 110, Issue 5, , Pages: 2563-2568 (2008).
  104. Francesca Lionetto, Alfonso Maffezzoli "Rheological Charcterization of concentrated nanoclay dispersions in an organic solvent", Applied. Rheology vol 19(2) 23423 8 pagine (2009)
  105. Carola Esposito Corcione, Alfonso Maffezzoli, "Glass transition in thermosetting clay-nanocomposite polyurethanes"  Thermochimica Acta, vol 465 pp. 43-48 (2009).
  106. M.A. Aiello, F. Leuzzi, G. Centonze, Alfonso Maffezzoli "Use of steel fibres recovered from waste tyres as reinforcement in concrete: Pull-out behaviour, compressive and flexural strength" Waste Management vol 29 pp. 1960-1970 (2009).
  107. Corcione, Carola; Malucelli, Giulio; Frigione, Mariaenrica; Maffezzoli, Alfonso "UV-curable Epoxy Systems containing Hyperbranched Polymers: kinetics investigation by p-DSC and real-time FT-IR experiments" Polymer Testing, Vol. 28, pp. 157-164 (2009).
  108. Giuseppina Lanciano, Antonio Greco, Alfonso Maffezzoli, Leno Mascia, “Effects of thermal history in the ring opening polymerization of CBT and its mixtures with montmorillonite on the crystallization of the resulting poly(butylene terephthalate)” Thermochimica Acta vol. 493 pp. 61–67 (2009).
  109. Silvio Pappadà, Rocco Rametta, Luca Toia, Alberto Coda, Luca Fumagalli and Alfonso Maffezzoli, " Embedding of superelastic shape memory alloy wires into composite structures: evaluation of impact properties" Journal of Materials Engineering and Performance, vol. 17, pp. 522-530 (2009)
  110. Silvio Pappadà, Per Gren, Kourosh Tatar, Tord Gustafson, Rocco Rametta, Ettore Rossini and Alfonso Maffezzoli Mechanical and vibration characteristics of laminated composite plates embedding shape memory alloy superelastic wires” Journal of Materials Engineering and Performance vol. 18  pp.531-537 (2009)
  111. Carola Esposito Corcione,, Giuseppe Mensitieri, Alfonso MaffezzoliAnalysis of the structure and mass transport properties of nanocomposite polyurethane” Polymer Engineering and Science, vol 49, pp1708-1718 (2009).
  112. Carola Esposito Corcione, M.G. Manera, Alfonso Maffezzoli, R. Rella "Synthesis and characterization of optically transparent epoxy matrix nanocomposites" Materials Science and Engineering part C, Vol 29 1798–1802 (2009)
  113. M. Madaghiele, A. Piccinno, M. Saponaro, A. Maffezzoli, A. Sannino, "Collagen- and gelatine-based films sealing vascular prostheses: evaluation of the degree of crosslinking for optimal blood impermeability” Journal of materials science: materials in medicine Vol 20 pp. 1979-1989 (2009)
  114. M. Pollini, M. Russo, A. Licciulli, A. Sannino, A. MaffezzoliCharacterization of antibacterial silver coated yarns” Journal of materials science: materials in medicine Vol 20 pp. 2361-2366 (2009)
  115. Carola Esposito Corcione, D. Cannoletta, Alfonso Maffezzoli, "Effect of a nanodispersed clay fillers on glass transition of thermosetting polyurethane" Macromolecular symposia Vol. 286, Issue 1, pp. 180-186 (2009)
  116. D. D'Amico, F. Martina, G. Ingrosso, G. Mele, A. Maffezzoli, A. Tarzia, C. Stifani, “Development and characterisation of jute reinforced natural matrix composites” International Journal of Materials and Product Technology Vol. 36, pp. 155 – 165 (2009)
  117. Alessandro Sannino, Marta Madaghiele, Christian Demitri, Francesca Scalera, Annaclaudia Esposito, Vincenzo Esposito and Alfonso MaffezzoliDevelopment and characterization of cellulose based hydrogels for use as bulking agents” Journal of Applied Polymer Science Volume 115, Issue 3, Pages: 1438-1444 (2010)
  118. A. Greco, F. Lionetto, L. Indennidate, A. MaffezzoliNanofilled polyols for viscoelastic polyurethane foam” Polymer International, Vol. 59, pp. 486–491 (2010)
  119. A.Greco, C. Esposito Corcione, A.Maffezzoli, “Water Vapor Permeability of Clay Nanocomposites Based on Amorphous PET” Defect and Diffusion Forum Vols. 297-301, pp 422-426 (2010)
  120. R.Gennaro, A. Greco, A. MaffezzoliNumerical simulation of the microscale impregnation in commingled thermoplastic composite yarns” Advances in Polymer Technology vol. 29 pp 122-130 (2010)
  121. M.A. Esmeraldo, A.C. Barreto, J.E.B. Freitas, P.B.A. Fechine, A.S.B. Sombra, E. Corradini, G. Mele, A. Maffezzoli, S.E. Mazzetto “ Dwarf-green coconut fibers: a versatile natural renewable raw bioresource. Treatment, Morphology, and physiochemical properties“ BioResources Vol 5, No 4 pp 2478-2501, (2010)
  122. S. Pappadà, R. Rametta, A. Passaro, L. Lanzilotto and A. MaffezzoliProcessing, mechanical properties, and interfacial bonding of a thermoplastic core-foam/composite-skin sandwich panel” Advances in Polymer Technology, vol. 29 No. 3 pp.137-145 (2010)
  123. A. Greco, D. Brunetti, G. Renna, G. Mele, A. Maffezzoli, “Plasticizer for poly(vinyl chloride) from cardanol as a renewable resource material” , Polymer degradation and Stability, vol 95 pp. 2169-2174 (2010).
  124. A.Greco, C. Esposito Corcione, A.Maffezzoli, A. Strafella  “Analysis of the structure and mass transport properties of clay nanocomposites based on amorphous PET” J. of Applied Polymer Science, 118; p. 3666–3672 (2010).
  125. P. Campaner, D. D’Amico, P. Ferri, L. Longo, A. Maffezzoli, C. Stifani, A. Tarzia “Cardanol based matrix for jute reinforced pipes” Macromolecular Symposia Vol 296,  p. 526–530, (2010).
  126. E. Calò, A. Greco, A. Maffezzoli, “Effects of diffusion of a naturally derived plasticizer from PVC” Polymer degradation and Stability, vol.  96 pp. 784-789 (2011).
  127. F. Conversano, R. Franchini, C Demitri, L. Massoptier, F. Montagna, AMaffezzoli, A. Malvasi, S. Casciaro “Hepatic Vessel Segmentation for 3D Planning of Liver Surgery: Experimental Evaluation of a New Fully Automatic Algorithm” Academic Radiology, vol, 18 (4), p.461-470, (2011).
  128. Carola Esposito Corcione, Anna Cavallo, Emanuela Pesce, Antonio Greco, Alfonso Maffezzoli, Evaluation of the degree of dispersion of nanofillers by mechanical, rheological and permeability analysis, Polymer Engineering and Science, 51(4); p. 1280–1285, (2011)
  129. Antonio Greco, Alessandra Strafella, Carola La Tegola, Alfonso Maffezzoli, “Assessment of the Relevance of Sintering in Thermoplastic Commingled Yarn Consolidation”  Polymer Composites Vol. 32(4), Pages: 657–664, (2011)
  130. R. Gennaro, F. Montagna, A. Maffezzoli, S. Fracasso, F. Fracasso “On-line consolidation of commingled polypropylene/glass roving during filament winding” Journal of Thermoplastic Composite Materials vol 24 p. 789-804 (2011).
  131. Francesca Lionetto, Francesco Montagna and Alfonso MaffezzoliUltrasonic Transducers for Cure Monitoring: Design, Modelling and Validation“ Measurement Science and Technology Vol . 12 p. 124002 (8pp.) (2011).
  132. Pollini M, Paladini F, Catalano M, Taurino A, Licciulli A, Maffezzoli A, Sannino A  “Antibacterial coatings on haemodialysis catheter by photochemical deposition of silver nanoparticles”. Journal Of Materials Science. Materials In Medicine, vol. 22, p. 2005-2012, (2011) ISSN: 0957-4530, doi: 10.1007/s10856-011-4380-x.
  133. Pollini M, Paladini F, Licciulli A, Maffezzoli A, Nicolais L, Sannino. “Silver coated wool yarns with durable antibacterial properties” Journal Of Applied Polymer Science, vol. 125, p. 2239-2244 (2012), ISSN: 0021-8995, doi: 10.1002/app.36444
  134. E. Calò, C. Massaro, R. Terzi, A. Cancellara, E. Pesce, M. Re, A. Greco, A. Maffezzoli,P.I. Gonzalez-Chi, Andrea Salomi “Rotational molding of polyamide-6 nanocomposites with improved flame retardancy” International Polymer Processing, vol. 27, pp. 370-377  (2012)
  135. A. Greco, M. Rizzo e A. Maffezzoli, Effect of the addition of organically modified nanofiller on the relaxation behavior of a thermoplastic amorphous matrix, Thermochimica Acta vol. 543, pp. 226-231 (2012) DOI: 10.1016/j.tca.2012.05.030
  136. Conversano F, Soloperto G, Greco A, Ragusa A, Casciaro E, Chiriacò F, Demitri C, Gigli G, Maffezzoli A, Casciaro S. “Echographic detectability of optoacoustic signals from low-concentration PEG-coated gold nanorods” International journal of nanomedicine, Volume 2012:7 Pages 4373 – 4389 (2012) DOI: 10.2147/IJN.S33908
  137. Greco, A.,Maffezzoli A., Calò E., Massaro C., Terzi, R, “An investigation into sintering of PA6 nanocomposite powders for rotational molding” Journal of thermal analysis and calorimetry vol. 109 (3) (2012) pp. 1493-1502
  138. Francesca Lionetto, Roberta Del Sole, Donato Cannoletta, Giuseppe Vasapollo and Alfonso Maffezzoli Monitoring Wood Degradation during Weathering by Cellulose Crystallinity” Materials (ISSN 1996-1994) vol. 5 (2012) p. 1910-1922.
  139. Antonio Greco, Alessia Timo and Alfonso Maffezzoli, “Development and Characterization of Amorphous Thermoplastic Matrix Graphene Nanocomposites” Materials (ISSN 1996-1994) vol. 5 (2012) pp. 1972-1985doi:10.3390/ma5101972
  140. Silvio Pappadà, R. Rametta, A. Largo, A. MaffezzoliLow velocity impact response in composite plates embedding Shape Memory Alloy wires” Polymer Composites vol. 33 (5) (2012) pp. 655-664
  141. Carola Esposito Corcione, Fabrizio Freuli,A. L’Erario and Alfonso MaffezzoliThe aspect ratio of epoxy matrix nanocomposites reinforced with graphene stacks” Plastics Research Online DOI 10.1002/pen.23292 (2012)
  142. Carlos Ávila-Orta, Carlos Espinoza-González, Guillermo Martínez-Colunga, Darío Bueno Baqués, Francesca Lionetto, Alfonso MaffezzoliAn overview of progress and current challenges in ultrasonic treatment of polymer melts” Advances in Polymer Technology vol. 32, issue S1, pp. E582–E602, (2012) doi: 10.1002/adv.21303
  143. Antonio Greco, Alfonso Maffezzoli, Giuseppe Buccoliero, Flavio Caretto and Giacinto Cornacchia “Thermal and chemical treatments of recycled carbon fibres for improved adhesion to polymeric matrix” Journal of composite materials vol. 47 (3) pp.  369–377 (2012)DOI: 10.1177/0021998312440133
  144. A. Grieco, A. MaffezzoliOptimization of parts placement in autoclave processing of composites” Applied Composite Materials vol 20 233–248(2013) DOI 10.1007/s10443-012-9265-8 (2013).
  145. R. Gennaro, A. Greco and A.Maffezzoli, “Micro and macro impregnation of fabrics using thermoplastic matrices” Journal of Thermoplastic Composite Material, Vol. 26(4) pp. 527–543 (2013), DOI: 10.1177/0892705711425849
  146. Salomi, A., Greco, A., Pacifico, T., Rametta, R. and Maffezzoli, A., “Processing and properties of a polymer/composite double/layer laminate”, Adv. Polym. Technol., Vol. 32 pp. E32-E43 (2013) DOI: 10.1002/adv.20267.
  147. Carola Esposito Corcione, Alfonso MaffezzoliTransport properties of graphite/epoxy composites:thermal, permeability and dielectric characterization” Polymer Testing, Vol. 32 pp. 880–888 (2013), DOI: 10.1016/j.polymertesting.2013.03.023.
  148. A. Greco, A. Maffezzoli, “Two-dimensional and three-dimensional simulation of diffusion in nanocomposite with arbitrarily oriented lamellae” Journal of Membrane Science, Vol. 442, Pages 238–244 (2013), DOI: 10.1016/j.memsci.2013.04.038
  149. M. Pollini, F. Paladini, A. Licciulli, A. Maffezzoli, A. Sannino, L. Nicolais “Antibacterial natural leather for application in the public transport system” Journal of Coatings Technology and Research, Vol. 10 Issue: 2   pp. 239-245   (2013) DOI: 10.1007/s11998-012-9439-1 
  150. R. Assiro, L.Cappelli, M.Cascella, L.DeLorenzis, F.Grancagnolo, F.Ignatov, A. L’Erario , A.Maffezzoli, A.Miccoli, G.Onorato, M.Perillo, G.Piacentino, S. Rella, F.Rossetti, M.Spedicato, G.Tassielli, G.Zavarise, “Ultra-low mass drift  chambers” Nuclear Instruments and Methods in Physics ResearchA”  vol 718 pp. 443–445(2013)DOI: 10.1016/j.nima.2012.10.047
  151. F. Lionetto, A. Maffezzoli, “Monitoring the Cure State of Thermosetting Resins by Ultrasound” Materials, Vol. 6, pp. 3783-3804; (2013) doi:10.3390/ma6093783
  152. Christian Demitri, Francesca Scalera, Marta Madaghiele, Alessandro Sannino, Alfonso MaffezzoliPotential of cellulose-based superabsorbent hydrogels as water reservoir in agriculture, International Journal of Polymer Science, Article ID 435073, 6 pages Volume 2013 (2013)
  153. Greco, A., Gennaro, R., Timo, A., Bonfantini, F., Maffezzoli, A.A Comparative Study Between Bio-composites Obtained with Opuntia ficus indica Cladodes and Flax FibersJournal of Polymers and the Environment,Volume 21, Issue 4, pp. 910-916, (2013)DOI: 10.1007/s10924-013-0595-x.
  154. Carola Esposito Corcione, Fabrizio Freuli, A. L’Erario and Alfonso Maffezzoli The Aspect Ratio of Epoxy Matrix Nanocomposites Reinforced With Graphene Stacks” Polymer Engineering and Science,Vol.53, pp. 531–539 (2013),DOI 10.1002/pen.23292.
  155. A. Greco, G. Romano, A. Maffezzoli, “Selective reinforcement of LLDPE components produced by rotational molding with thermoplastic matrix pultruded profiles”, Composites: Part B Vol. 56 pp. 157–162 (2014).
  156. R. Gennaro, M. Christmann, A. Greco, G. Rieber, P. Mitschang, A. Maffezzoli, “Experimental Measurement of Transversal Micro- and Macro Permeability During Compression Molding of PP/Glass Composites” Polymer Composites Vol. 35 pp. 105–112, January 2014, DOI: 10.1002/pc.22639 (2014).
  157. A. Greco, A. Maffezzoli, S. Forleo ”Sintering of PLLA powders for rotational molding” Thermochimica Acta, vol.582 pp. 59–67 (2014) DOI: http://dx.doi.org/10.1016/j.tca.2014.03.005
  158. F. Lionetto, E. Calò, F. Di Benedetto, D. Pisignano, A, Maffezzoli A methodology to orient carbon nanotubes in a thermosetting matrix“ Composite Science and Technology vol. 96, pp. 47-55 (2014) DOI: http://dx.doi.org/10.1016/j.compscitech.2014.02.016
  159. A. Greco,  M. Frigione, A. Maffezzoli, A. Marseglia, A. Passaro “ A perspective on the Prowaste concept: efficiente utilization of plastic waste through product design and process innovation” Materials vol. 7 5385-5402 doi:10.3390/ma7075385
  160. L. De Lorenzis, F. Grancagnolo, A. L’Erario, A. Maffezzoli, A. Miccoli, S.Rella M. Spedicato, G. Zavarise, “analysis and characterization of the mechanical structure for the i-tracker of the mu2e experiment” Nuclear Physics B (Proc. Suppl.) 248–250 pp. 134–136 (2014)
  161. Marta Madaghiele, Marotta Francesco, Christian Demitri, Francesco Montagna, Alessandro Sannino, Alfonso Maffezzoli, “Development of semi- and grafted interpenetrating polymer networks (IPNs) based on  poly(ethylene glycol) diacrylate and collagen” Journal of applied biomaterial and functional materials Volume 12, pp 183-192, (2014), DOI:10.5301/jabfm.5000187.
  162. Antonio Greco, Alfonso Maffezzoli, Giovanni Casciaro, Flavio Caretto, “Mechanical properties of basalt fibers and their adhesion to polypropylene matrices” Composites: Part B 67 pp. 233–238(2014), DOI: 10.1016/j.compositesb.2014.07.020
  163. Marco Mauro, Maria Rosaria Acocella, Carola Esposito Corcione, Alfonso Maffezzoli, Gaetano Guerra, “Catalytic activity of graphite-based nanofillers on cure reaction of epoxy” Polymer, vol. 55, (2014)  pp. 5612-5615 DOI: 10.1016/j.polymer.2014.09.019
  164. Francesca Scalera, Carola Esposito Corcione, Francesco Montagna, Alessandro Sannino, Alfonso Maffezzoli“  Development and characterization of UV curable epoxy/hydroxyapatite suspensions for stereolithography applied to bone tissue engineering” Ceramics international, vol 40 pp. 15455-15462 (2014)  DOI: 10.1016/j.ceramint.2014.06.117
  165. Antonio Greco, Francesca Lionetto, Alfonso Maffezzoli, “Processing and Characterization of Amorphous Polyethylene Terephthalate Fibers for the Alignment of Carbon Nanofillers in Thermosetting Resins” Polymer Composites vol. 36 pp 1096-1103, (2015)  DOI 10.1002/pc.23366
  166. G. Scarselli, E. Castorini, W. Panella, R.Nobile, A. MaffezzoliStructural behaviour modelling of bolted joints in composite laminates subjected to cyclic loading”, Aerospace Science and Technology vol 43 pp. 89-95, (2015)  , DOI 10.1016/j.ast.2015.02.017
  167. Silvio Pappadà, Andrea Salomi, Jeanette Montanaro,, Alessandra Passaro, Antonio Caruso, Alfonso Maffezzoli, “Fabrication of a thermoplastic matrix composite stiffened panel by induction welding” Aerospace Science and Technology, Volume 43,  (2015), Pages 314-320, DOI: 10.1016/j.ast.2015.03.013
  168. F. Lionetto, R. Dell’Anna, F. Montagna, A. MaffezzoliUltrasonic assisted consolidation of commingled thermoplastic/glass fiber rovings” Frontiers in Materials: composite materials, Volume 2, article 32, pp. 1-9  (2015) DOI: 10.3389/fmats.2015.00032
  169. Antonio Greco and Alfonso Maffezzoli, “Analysis of the suitability of poly-lactic acid in rotational molding process” Advances in Polymer Technology vol 34 n. 3, 21505, p.1-8, (2015) DOI: 10.1002/adv.21505
  170. Antonio Greco and Alfonso Maffezzoli  “Rotational Molding of Poly(lactic acid): Effect of Polymer Grade and Granulometry” Advances in Polymer Technology (2015) DOI:10.1002/adv.21630
  171. A. Turco, C. Malitesta, G. Barillaro, A. Greco, A. Maffezzoli and E. Mazzotta, J. Mater. Chem. A, “Magnetic and highly reusable macroporous superhydrophobic/superoleophilic PDMS/MWNTs nanocomposite for oils sorption from water” Journal of material chemistry A, vol. 3 pp. 17685–17696 (2015), DOI: 10.1039/C5TA04353K
  172.  A. Greco, A. Maffezzoli, “Finite element simulation and analytical modeling of 3D multi scale diffusion in nanocomposites with permeable stacks” Modelling and Simulation in Materials Science and Engineering, 24 p. 015003 (16pp), (2015), doi:10.1088/0965-0393/24/1/015003.
  173. A. Greco, A. Maffezzoli, “Finite Element Modeling of Multiscale Diffusion in Intercalated Nanocomposites” Journal of nanomaterials, Volume 2015, Article ID 482698, 11 pages (2015) http://dx.doi.org/10.1155/2015/482698
  174. Maria Rosaria Acocella, Carola Esposito Corcione, Antonella Giuri, M. Maggio Alfonso Maffezzoli, Gaetano Guerra “Graphene oxide as a catalyst for ring opening reactions in amine crosslinking of epoxy resins” RSC Advances Vol. 6, pp. 23858–23865, (2016), DOI: 10.1039/C6RA00485G
  175. A. Greco, A. Maffezzoli, “Rotational molding of biodegradable composites obtained with PLA reinforced by the wooden backbone of opuntia ficus indica cladodes”, Journal of applied polymer science 42447 (8 pages), (2015) DOI: 10.1002/APP.42447
  176. Francesca Lionetto · Riccardo Dell’Anna · Francesco Montagna · Alfonso MaffezzoliModeling of continuous ultrasonic impregnation and consolidation of thermoplastic matrix composites“ Composites Part A: Applied Science and Manufacturing vol. 82 p. 119-129 (2016), DOI:10.1016/j.compositesa
  177. Antonio Greco and Francesca Ferrari, Rosario Velardi, Mariaenrica Frigione, Alfonso Maffezzoli “Solubility And Durability Of Cardanol Derived Plasticizers for Soft PVC” International polymer processing Vol. 31, No 5. Pages: 577–586 (2016) doi: 10.3139/217.3237
  178. Carlos Espinoza-Gonzalez; Carlos Avila-Orta; Guillermo Martinez-Colunga; Francesca Lionetto; Alfonso Maffezzoli, “A Measure of CNTs Dispersion in Polymers with Branched Molecular Architectures by UDMA” IEEE Transactions on Nanotechnology, vol 15 , pp. 731-737, (2016), DOI: 10.1109/TNANO.2016.2530697
  179. Antonio Greco, Alfonso Maffezzoli, “Cardanol derivatives as innovative bio-plasticizers for poly-(lactic acid)” Polymer Degradation and Stability, Vol 132, pp. 213-219 (2016), DOI: 10.1016/j.polymdegradstab.2016.02.020
  180. Mauro Zammarano, Valeria Cazzetta, Shonali Nazaré, J. Randy Shields, Yeon Seok Kim, Kathleen M. Hoffman, Alfonso Maffezzoli, and Rick Davis, “Smoldering and Flame Resistant Textiles via Conformal Barrier Formation”  Advanced Materials 1600617 p. 1-5 (2016) DOI: 10.1002/admi.201600617
  181.  Antonio Greco, Francesca Ferrari, Roberta Del Sole, Alfonso MaffezzoliUse of Cardanol Derivatives as Plasticizers for PVC” journal of vinyl & additive technology p. 1-9, (2016) DOI 10.1002/vnl.21585.
  182. C. Esposito Corcione, M. R. Acocella, A. Giuri and A. Maffezzoli, “Epoxy Resin Catalyzed by Graphite-Based Nanofillers” International polymer processing, Vol. 31,  Pages 548-553 (2016), doi: 10.3139/217.3225
  183. Antonio Greco, Francesca Ferrari, Alfonso Maffezzoli, Effect of the epoxidation yield of a cardanol derivative on the plasticization and durability of soft PVC, polymer degradation and stability, vol 134 pp. 220-226 (2016) DOI 10.1016/j.polymdegradstab.2016.10.010
  184. Antonio Greco, Francesca Lionetto, Alfonso Maffezzoli, “Orientation of graphene nanoplatelets in thermosetting matrices”, IEEE Transactions on Nanotechnology, vol 15(6), pp877-883, (2016),  DOI: 10.1109/TNANO.2016.2553361
  185. M. Pollini, F. Paladini, A. Sannino, A. Maffezzoli, “Development of hybrid cotton/hydrogel yarns with improved absorption properties for biomedical application Materials Science and Engineering C, Vol. 63, p. 563-569 (2016), DOI: 10.1016/j.msec.2016.03.027
  186. A. Greco, C. Esposoto Corcione,A. Maffezzoli, “Effect of multiscale diffusion on the permeability behavior of intercalated nanocomposites” Journal of Membrane Science, Vol. 505, pp 92-99 (2016), DOI: 10.1016/j.memsci.2016.01.029
  187. Christian Demitri, Vincenzo Maria De Benedictis, Marta Madaghiele, Carola Esposito Corcione, Alfonso Maffezzoli “Nanostructured active chitosan-based films for food packaging applications: Effect of graphene stacks on mechanical properties”, Measurement: Journal of the international measurement confederation, Vol. 90, p. 418–423 (2016)
  188. Frank Snijkers, Rossana Pasquino, Alfonso MaffezzoliCuring and Viscoelasticity of Vitrimers” Soft Matter vol. 13, p. 258-268 (2017) DOI: 10.1039/c6sm00707d
  189. Carola Esposito Corcione, Francesca Gervaso, Francesca Scalera, Francesco Montagna, Alessandro Sannino, Alfonso Maffezzoli, “The feasibility of printing polylactic acid–nanohydroxyapatite composites using a low-cost fused deposition modeling 3D printer” Journal of applied polymer science, vol 134 pp. 44656 (1 of 10) (2017) DOI: 10.1002/app.44656
  190. Antonio Greco, Carola Esposito Corcione, Alfonso MaffezzoliDiffusion in oriented lamellar nanocomposite: Numerical analysis of the effects of dispersion and intercalation” Computational Materials Science vol 133 p. 45–51, (2017) DOI: 10.1016/j.commatsci.2017.03.011
  191. M. R. Acocella, C. Esposito Corcione,  A. Giuri M. Maggio, G. Guerra and A. Maffezzoli, “Catalytic activity of oxidized carbon black and graphene oxide for the crosslinking of Epoxy Resins” Polymers Vol 9, 133; pp. 1-15, doi:10.3390/polym9040133 (2017)
  192. M. Dios, P.L. Gonzalez-R, D. Dios and A. Maffezzoli, “A mathematical modeling approach to optimize composite parts placement in autoclave” International Transactions in Operational Research, pp. 115-141 (2017) DOI: 10.1111/itor.12295.
  193. Francesca Lionetto, Silvio Pappadà, Giuseppe Buccoliero, Alfonso MaffezzoliFinite element modeling of continuous induction welding of thermoplastic matrix composites” Materials & Design, vol 247 pp. 289-295 (2017) DOI: 10.1016/j.matdes.2017.02.024.
  194. Francesca Lionetto, Frank Balle, Alfonso MaffezzoliHybrid ultrasonic spot welding of aluminum to carbon fiber reinforced epoxy composites” Journal of Materials Processing Technology vol 247 pp 289-295 (2017) DOI: 10.1016/j.jmatprotec.2017.05.002
  195. G. Scarselli, C. Esposito Corcione, F. Nicassio, A.MaffezzoliAdhesive joints with improved mechanical properties for aerospace applications” International Journal of Adhesion and Adhesives, Vol 75 pp. 174-180 (2017) DOI: 10.1016/j.ijadhadh.2017.03.012
  196. Sanosh Kunjalukkal Padmanabhan, Carola Esposito Corcione, Rossella Nisi, Alfonso Maffezzoli, Antonio Licciulli, “PolyDiethyleneglycol–bisallyl carbonate matrix transparent nanocomposites reinforced with bacterial cellulose microfibrils”, European Polymer Journal, vol 93, pp. 192 -199 (2017) DOI: j.eurpolymj.2017.05.037.
  197. Francesca Lionetto, Maria Nicolas Morillas, Silvio Pappadà, Giuseppe Buccoliero, Irene Fernandez Villegas, Alfonso MaffezzoliHybrid welding of carbon-fiber reinforced epoxy based composites” Composites: part A, vol. 104 pp 32-40 (2018). DOI 10.1016/j.compositesa.2017.10.021
  198. Antonio Greco, Francesca Ferrari, Alfonso Maffezzoli, “UV and thermal stability of soft PVC plasticized with cardanol derivatives” Journal of Cleaner Production Vol. 164 (2017) pp. 757-764 (2017), DOI: j.jclepro.2017.07.009.
  199. Pooyan Makvandi1, Carola Esposito Corcione, Federica Paladini, Anna Lucia Gallo, Francesco Montagna, Rezvan Jamaledin, Mauro Pollini, Alfonso Maffezzoli, “Antimicrobial modified hydroxyapatite composite dental bite by stereolithography” Polymers for Advanced Technologies, Vol 29 pp. 364–371 (2018) DOI: 10.1002/pat.4123.
  200. Antonella Tarzia, Jeanette Montanaro, Michele Casiello, Cosimo Annese, Angelo Nacci, Alfonso Maffezzoli, “Synthesis, Curing, and Properties of an Epoxy Resin Derived from Gallic Acid” Bioresources Vol 13, p. 632-645 (2018) DOI: 10.15376/biores.13.1.632-645
  201. E. Perez, C.J. Perez, C. Bernal, A. Greco, A. MaffezzoliMechanical Behavior of Fibers and Films Based on PP/Quartz Composites” Polymer composites vol 38(8), pp. 1631-1639 (2017) DOI 10.1002/pc.23731.
  202. Francesca Lionetto, Silvio Pappadà, Giuseppe Buccoliero, Alfonso MaffezzoliResin pressure evolution during autoclave curing of epoxy matrix composites” Polymer Engineering and Science vol 57(6), pp. 631-637 (2017) DOI: 10.1002/pen.24568
  203. Francesca Lionetto, Anna Moscatello Alfonso MaffezzoliEffect of binder powders added to carbon fiber reinforcements on the chemorheology of an epoxy resin for composites” Composites Part B: Engineering, vol. 112, p. 243-250, (2017) DOI: 10.1016/j.compositesb.2016.12.031
  204. Carola Esposito Corcione, Francesca Gervaso, Francesca Scalera, Francesco Montagna, Tommaso Maiullaro, Alessandro Sannino, Alfonso Maffezzoli 3D printing of hydroxyapatite polymer-based composites for bone tissue engineering” Journal of polymer engineering vol. 37(8), pp. 741-746, (2017) DOI 10.1515/polyeng-2016-0194
  205. Riccardo Dell’Anna, Francesca Lionetto, Francesco Montagna and Alfonso MaffezzoliLay-Up and Consolidation of a Composite Pipe by In Situ UltrasonicWelding of a Thermoplastic Matrix Composite Tape” Materials 2018, 11, 786 (pp 1-11); doi:10.3390/ma11050786
  206. Antonio Greco, Francesca Ferrari, Alfonso Maffezzoli, “Thermal analysis of poly(lactic acid) plasticized by cardanol derivatives” Journal of thermal analysis and calorimetry, Vol. 132 pp 1-7 (2018) DOI: 10.1007/s10973-018-7059-4
  207. Antonella Tarzia, Jeanette Montanaro, Michele Casiello, Cosimo Annese, Angelo Nacci, Alfonso Maffezzoli, “Synthesis, Curing, and Properties of an Epoxy Resin Derived from Gallic Acid” Bioresources Vol 13, p. 632-645 (2018) DOI: 10.15376/biores.13.1.632-645
  208. Valentina Donadei, Francesca Lionetto, Michael Wielandt, Arnt Offringa and Alfonso MaffezzoliEffects of Blank Quality on Press-Formed PEKK/Carbon Composite Parts”, Materials vol 11, 1063, pp 1-12 (2018). doi:10.3390/ma11071063
  209. Carola Esposito Corcione, Francesca Scalera, Francesca Gervaso, Francesco Montagna, Alessandro Sannino, Alfonso Maffezzoli, “One step solvent-free process for the fabrication of high loaded PLA/HA composite filament for 3D printing” Journal of thermal analysis and calorimetry”, Vol. 134 pp 575-582 (2018) doi: 10.1007/s10973-018-7155-5.
  210. Francesca Lionetto, Claudio Mele, Paola Leo, Sonia D'Ostuni, Frank Balle Alfonso MaffezzoliUltrasonic spot welding of carbon fiber reinforced epoxy composites to aluminum: mechanical and electrochemical characterization” Composites Part B Vol. 144 pp. 134–142 (2018) doi:10.1016/j.compositesb.2018.02.02.
  211. Antonio Greco, Francesca Ferrari, Roberta Del Sole, Alfonso MaffezzoliUse of Cardanol Derivatives as Plasticizers for PVC” journal of vinyl & additive technology Vol. 24(S1) p. E62-E67, (2018) DOI 10.1002/vnl.21585.
  212. Carola Esposito Corcione, Francesca Gervaso, Francesca Scalera, Sanosh Kunjalukkal Padmanabhan, Marta Madaghiele, Francesco Montagna, Alessandro Sannino, Antonio Licciulli, Alfonso Maffezzoli “Highly loaded hydroxyapatite microsphere/ PLA porous scaffolds obtained by fused deposition modelling” Ceramics International Col 45  pp. 2803–2810(2019). DOI: 10.1016/j.ceramint.2018.07.297
  213. M.M. Soledad Lencina, Chiara Rizzo, Christian Demitri, Noemí Andreucetti, Alfonso MaffezzoliRheological analysis of thermo-responsive alginate/PNIPAAm graft copolymers synthesized by gamma radiation” Radiation Physics and Chemistry Vol. 156 pp. 38–43 (2019) doi: 10.1016/j.radphyschem.2018.10.021
  214. Antonio Greco, Francesca Ferrari, Alfonso MaffezzoliMechanical properties of poly(lactid acid) plasticized by cardanol derivatives” Polymer degradation and stability, Vol. 159 pp. 199-204 (2019) DOI: 10.1016/j.polymdegradstab.2018.11.02
  215. Antonio Greco, Francesca Ferrari, and Alfonso Maffezzoli “Processing of Super Tough Plasticized PLA by Rotational Molding” Advances in Polymer technology, Volume 2019, Article ID 3835829, 8 pages (2019). DOI: /10.1155/2019/3835829
  216. Enrica Stasi, Antonella Giuri, Maurizio La Villetta, Domenico Cirillo, Gaetano Guerra, Alfonso Maffezzoli, Eleonora Ferraris, Carola Esposito Corcione, “Catalytic Activity of Oxidized Carbon Ashes Waste for the Crosslinking of Epoxy Resins” Polymers vol. 11 p.1011 (14 pages) (2019). doi:10.3390/polym11061011
  217. Antonio Greco, Francesca Ferrari, Alfonso Maffezzoli, Pietro Delogu, Rosario Velardi, Alessia Timo, Antonella Tarzia, Alessandro Marseglia, Massimiliano Calò “Solubility Durability Of Cardanol Derived Plasticizers For Soft PVC”, accettato per la pubblicazione su Environmental Engineering and Management Journal
  218. Massimo Mariello, Francesco Guido, Vincenzo Mariano Mastronardi, Roberto Giannuzzi, Luciana Algieri, Antonio Qualtieri, Alfonso Maffezzoli, Massimo De Vittorio “Reliability of Protective Coatings for Flexible Piezoelectric Transducers in Aqueous Environments” Micromachines vol 10, p. 739 (21 pages) (2019); doi:10.3390/mi10110739

 

 

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Property-structure-processing relations in composite and polymer materials

See also the  MSTG Materials Science and Technology Group site  http://mstg.unisalento.it

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