57645 - Structure and Properties of the Polymers

Academic Year 2017/2018

  • Teaching Mode: Traditional lectures
  • Campus: Ravenna
  • Corso: First cycle degree programme (L) in Chemistry and Technologies for the Environment and Materials (cod. 8515)

Learning outcomes

After completing this course the student should be able to address the main correlations between structure and properties in polymeric materials, with a particular focus on materials with wide industrial applications and on composite structures. The student should comprehend the main physico-chemical properties, such as thermal and mechanical behaviour, of polymeric materials and will be able to correlate them with the chemical structure of the macromolecules. Moreover she/he will be able to evaluate sustainability issues concerning polymers from renewable resources and biodegradable polymers. The student should also acquire competencies regarding the application of the main industrially relevant polymers as a function of their properties.

Course contents

Requirements:

In order to successfully attend this course the student should have a good background in the fundamentals of the polymer chemistry, spanning from the synthesis to the main properties of macromolecular systems. The student should also know the basics of the main industrial formation processes. These competencies are provided in the course “Polymer Science and Laboratory” (67067, 10cfu) and they will be briefly revised.

Syllabus:

  • Structure of macromolecules.
  • Polymeric solids and their properties: macromolecular conformation in the amorphous phase, molecular orientation, glass transition, polymeric crystals, crystallization processes, mechanical properties of amorphous and semi-crystalline polymers.
  • Structure/properties correlation in polymeric materials.
  • Thermoplastics: viscoelastic behavior, creep, and stress relaxation
  • Elastomers: structural requirements, natural rubber, synthetic rubbers, thermoplastic elastomers
  • Polymer blends: miscibility, morphology, and properties
  • The elastic properties of rubber.
  • Polymeric fibers: structural requirements, natural fibers, synthetic fibers, properties and processing
  • Thermosetting polymers: the curing of cross-linkable polymers, gelation and vitrification, kinetics of the curing process, case studies
  • Failure of polymeric materials: yield, crazing and fracture
  • Additives and stabilisers for polymeric materials
  • Polymer matrix composites: matrices, reinforcements, and properties
  • Sustainable polymers:
    • Biodegrdable polymers
    • Polymers from renewable resources
    • Degradation of polymeric materials.

Readings/Bibliography

Teaching material (power point presentations and, when necessary, scientific articles) will be available on-line the day before each lecture.

Additional useful reference books:

AIM - Fondamenti di Scienza dei Polimeri, Pacini Editore, 2003, Pisa

AIM - Fondamenti di struttura, proprietà e tecnologia dei polimeri, Edizioni Nuova Cultura, 2012, Roma

N.G. McCrum, C.P. Buckley, C.B. Bucknall - Principles of Polymer Engineering, Oxford Science Publications, second edition, 1997

Teaching methods

Room lectures with the aid of power point presentation.

Assessment methods

Learning assessment is based on oral examination at the end of the course. The oral examination will last about 30 minutes.

The final oral examination will assess:

- the knowledge of the main properties of polymeric materials;

- the knowledge and comprehension of the correlation between such properties and the chemical structure of the macromolecules;

- the knowledge of the main classes of industrially relevant polymers and of the application, as a function of their properties.

Office hours

See the website of Laura Mazzocchetti