MSNE 301: MATERIALS SCIENCE FOR ENGINEERS
American University of Sharjah
CHE 230: Materials Science
Introduces material science, relationships between structure and properties of materials. Includes the following topics: atomic bonding, crystalline structures, crystal defects and imperfections; phase diagrams and equilibrium microstructural development; and properties of engineering materials.
MSNE 301: MATERIALS SCIENCE FOR ENGINEERS
University of Auckland
CHEMMAT 121: Materials Science
Introduction to materials science starting with the fundamentals of atomic structure and bonding and how this builds up a microstructure to create a solid. Metals, polymers, ceramics, electronic materials, composite and biomaterials will be covered and the properties, advantages and disadvantages of each discussed. Considerations such as corrosion, degradation and failure will be studied with a focus on improving design and creating new materials for our future world.
MSNE 301: MATERIALS SCIENCE FOR ENGINEERS
Hong Kong UST
CENG 1500L1: Introduction to Materials Science and Engineering
The scope of this course is to introduce different categories of materials and to elucidate their
applications. We will study basic concepts of different kinds of materials and the basic structures at different scales. The focus of the course is the structure/property relationship. Design and applications will be explored. After the course, the students are able to understand basic techniques for measuring the common properties of materials, and for fabricating and processing of novel materials, and evaluate the social, economical, and environmental impact of materials.
MSNE 301: MATERIALS SCIENCE FOR ENGINEERS
Universidad Carlos III de Madrid
14190: Materials Science and Engineering
Study of materials: metallic, ceramic, polymers and composites. Manufacturing and treating techniques of materials. Structure of materials. Mechanical testing of materials. Hardness Conductor, semiconductor, isolating and magnetic materials: application in electric technology. Materials performance. Selection criteria.
MSNE 301: MATERIALS SCIENCE FOR ENGINEERS
University of New Brunswick
CHE 2501: General Materials Science
This course focuses on the principles relating the properties and behavior of engineering materials to their structure; atomic bonding forces and strength of interatomic and intermolecular bonding forces, atomic arrangements in solids, structural imperfections and atom movements in solids; principles of phase diagrams and their application to multiphase materials, with particular reference to the iron-carbon system; mechanical and electrical properties of engineering material; semiconductors, polymers and ceramics; and their relation to internal structure.
MSNE 301: MATERIALS SCIENCE FOR ENGINEERS
University of Technology Sydney
60101: Chemistry and Materials Science
This subject develops a solid science foundation for further materials and engineering-related studies and facilitates the working relationship between engineers, materials scientists and other scientists; an ability to identify and solve chemical and materials problems; and an ability to relate properties of engineering materials to technical applications. Topics covered in this subject are: chemical bonding of materials and general chemistry, classification of materials, structure-property relationships, mechanical properties, heat treatment and strengthening mechanisms, ferrous and non-ferrous alloys, ceramics, polymers and composites, materials degradation, materials recycling and materials selection. Numerous applied examples are discussed. Laboratory work imparts practical skills and reinforces the underlying theories. This is an integral part of the subject along with tutorial workshops.
MSNE 302: MATERIALS PROCESSING
Kyushu University
(IUPE): Manufacturing Processes
In this course, lectures and exercises on the characteristics of deformation processing and removal processing from basic to the latest methods will be given: manufacturing, casting, metal forming, welding, heat treatment, powder metallurgy, cutting, grinding, machine tools, unconventional machining, precision measurement. (Taught in English)
MSNE 402: MECH PROPERTIES OF MATERIALS
Hong Kong UST
MECH 4010: Materials Failure in Mechanical Applications
Failure analysis, brittle and ductile fracture, creep rupture, fatigue cracking, environmental degradation of materials, damage tolerance design, life predication of engineering components, case studies.
This course is an acceptable substitute for MSNE 402 if an introductory strength of materials course such as MECH 202 is also taken.
MSNE 409: PHYSICAL METALLURGY
Kyushu University
(IUPE): Introduction to Metallic Materials
Metals, Crystal structure, Mechanical properties, Dislocations, Deformation, Phases, Diffusion, Phase transformation. (Taught in English)