MATERIALS FOR INDUSTRIAL DESIGN
Academic year and teacher
If you can't find the course description that you're looking for in the above list,
please see the following instructions >>
- Versione italiana
- Academic year
- 2016/2017
- Teacher
- CLAUDIO ALESSANDRI
- Credits
- 9
- Didactic period
- Secondo Semestre
Training objectives
- The Course, as the first introduction to the Mechanics of Materials and Structures, has two main purposes:
- to provide the mathematical – physical tools and the basic mechanical models for a correct design of artefacts and prototypes for Industry, such as to meet the requirements of strength, stability and functionality at the same time.
- to illustrate the physical and mechanical properties of traditional and innovative materials , manufacturing processes, testing techniques for quality control, check procedures on stress and strain admissibility in conditions of ordinary use of the industrial product. Prerequisites
- Students must have familiarity with the Mathematics and Physics of the High School.
Course programme
- SI measure units, global and local reference systems
Basic elements of Vector Analysis
Concepts of Force, Moment of Forces, displacements and rotations, work and their representation in terms of Vectors
The fundamental laws of Mechanics
Rigid bodies and the fundamental laws of Statics
2-D and 3-D external and internal constraints; relationships between mechanical representation and technological features
Elements of Geometry of Masses; center of masses, static moment, moments of inertia and related properties
Structure as bearing body
Basic loading conditions
Deformability
Tension and Strain
Material elastic, linear elastic, plastic and fragile behaviors by means of diagrams of axial experimental tests
Homogeneity, isotropy, orthotropy, anisotropy, ductility, fragility, hardness, tenacity, resilience, creep, fluage
Determinate and indeterminate structures
One-dimensional models for the analysis of statically determinate structures
Constraint reactions
Elementary and combined internal forces: tension, compression, bending, compression and bending, shear, torsion
Influence of temperature on material behavior: thermal conductivity and thermal expansion
Basic concepts of structural instability
Simple checks on material strength by means of the admissible tension Method
Relationship shape-structure, shape - strength
Structural typologies and their strength based either on mass or shape
Presentation of works carried out by students in previous academic years
PHYSICAL CHARACTERIZATION OF THE MATERIALS FOR DESIGN
Composite materials. Definition, classification. Semi-finished product Advantages and disadvantages of composite materials
Fibers and matrices. Carbon, glass, aramidic fibers. Polyesters and epoxy resins. Metallic and ceramic matrix.
Composites as anisotropic materials. Mechanical properties, strength and stiffness.
Micromechanics. Mixture rule for moduli. Estimate of longitudinal and transverse strength.
Failure analysis of composite materials
Tutorial: Designing a product using a composite material
Composites manufacturing. Manual techniques. Prepreg lay-up and cure in autoclave. Compression moulding. Pultrusion. Filament winding. Resin transfer molding (RTM)
Didactic methods
- Direct lectures. The topics of the Course are presented in their main features and with their relationships with the present trend of the Industrial Design. The theoretical parts of the Course are always followed by applications to specific case studies.
Learning assessment procedures
- In both Modules the level of achievement of the main objectives of the Course is checked and evaluated. In particular, in both Modules the test consists of:
- presentation of some applications of methods and procedures learnt in the Course to the design of some industrial products of interest to the student
- interview on the main theoretical contents of the Course
The test is passed successfully by the student if has proved to have an adequate knowledge of the topics and the procedures Reference texts
- Basic bibliography:
- Lecture notes
- Works carried out by students of the previous years
- Materiali per il Design – Introduzione ai materiali e alle loro proprietà. A cura di B. Del Curto e C. Marano. Casa Editrice Ambrosiana. ISBN 978-88-08-18400-9
- Materiali compositi, I. Crivelli Visconti, Edizione Hoepli
Suggested Bibliography:
- Introduzione alla Meccanica delle Strutture per il Design, Antonietta Campanella , ARACNE Ed., 2014, ISBN-13: 978-8854879331
