Industrial Chemistry

Technology and application of polymers: Properties of common plastic materials. Thermoplastic polymers: polystyrene, polyethylene (high, medium and low density), polyvinylchloride, polycarbonate, PET, Nylon. Thermosetting polymers: phenol-formaldehyde resin, urea-formaldehyde resin. Application of IR spectroscopy to identify plastic materials. Polymer compounding: Classification, general criteria for the selection of additives, polymer process aids and additives for long-term storage. Antioxidants: thermal degradation processes (the fish-eye and beta-scission phenomena). Classification and types of antioxidants, efficiency tests. Photo-stabilizers: photo-degradation processes, mechanisms of action of photo-stabilizing additives. Flame retardants: classification and mechanism of action. Fire-resistant polymers. Plasticizers: mechanism of action, choice of the plasticizer, classes of plasticizers, compatibility. Evaluation of the influence of plasticizer content on PVC mechanical properties. Process additives: mechanism of action of internal and external lubricants, and slip agents. Polymer blends: mechanical and thermal properties. Particulate composite materials: Functional and inert fillers. Reinforcing fillers: rubber / carbon black composites. Anti-shock fillers (polystyrene elastomers). Fibrous composite materials: Definition, classification, types of fibrous composites. Types of fibers: preparation, properties, uses. Fiberglass, fibers on graphite, polyarylamides. Mechanical properties of composites with oriented long fibers. Mechanical properties of composites with oriented short fibers. Surface treatments. Methods of fiber incorporation in matrices. Process of preparation of polymer composite materials. Technological processes of transformation of polymers: Extrusion, injection molding, calendaring, thermoforming, rotational molding and sintering, curing, spinning from fuse and from solution, wet and dry spinning. Plastics and the Environment: Dissemination of plastics and environmental impact. Biodegradable polymers. Recovery and recycling of plastics: primary, secondary, tertiary and quaternary recycling. Issues related to recycling: selection and differentiation, incompatibility and degradation. Polymer blends and compatibilization.

There are no prerequisites but it is considered essential to have basic knowledge on macromolecules and on their behavior in the solid state and in solution.

Scienza e Tecnologia dei materiali Polimerici di S. Bruckner et al., EdiSES editore. Plastics materials di J.A. Brydson, BH Ltd editor.

Class attendance is optional. Attendance at the laboratory exercises is mandatory.

The written exam will include open-ended questions and a numerical exercise

The lessons will be delivered in the classroom, in a conventional way, using computer aids and slides. Practical exercises will be carried out in laboratory and will include 5 activities. After the experimental activity, the preparation of a report to be delivered to the teacher before the exam is required.