TECHNOLOGIES OF APPLIED CHEMISTRY A
Learning outcomes of the course unit
The course deals with the applications of the fundamentals of Chemistry in the use of engineering materials. It presents a variety of engineering materials, in particular metallic materials, and correlate their chimicophysical nature with their mechanical, thermal and processing properties for explaining their behaviour in service.
General and Inorganic Chemistry, fundamentals of Organic Chemistry
Course contents summary
Crystal and amorphous materials. Engineering materials: metals, ceramic materials, polymeric and composite materials. Mechanical and thermal properties of materials and tests for their characterization.
Principal metallic crystal structures. Metallic solid solutions. Crystal lattice defects. Stress and strain in metals. Metal extraction processings. Cast irons and steels: production and properties. Heterogeneous equilibria. Binary phase diagrams. The iron-iron carbide phase diagram. Heat treatment of steels (hardening, softening, annealing, normalizing). Alloying elements in steel, stainless steels. White, grey, malleable and nodular cast irons. Standard classification and codification of metal materials.
Copper and aluminum: properties, production. Main copper and aluminum alloys.
Electrochemical corrosion. Galvanic cells. Intergranular corrosion. Stress corrosion. Corrosion control and prevention. Oxidation of metals.
Polymerization reactions for thermoplastics. Engineering thermoplastics. Thermosetting plastics: chemistry and properties.
C. BRISI: ' Chimica Applicata', Levrotto e Bella, Torino, 1991.
W.F. SMITH: 'Scienza e tecnologia dei materiali' McGraw-Hill, 2004.
A. CIGADA, "Elementi di struttura e proprietà dei materiali metallici" CittàStudi Edizioni, Torino, 1994.