Course Description
Basic training for students to understand the advanced mechanics of materials such as elastic behavior, inelastic behavior, anisotropic behavior, fracture behavior, and fatigue. With these knowledge, students will be able to analyze the materials mechanical behavior and wisely use the materials. Students with the knowledge of different mechanical behavior of materials, both isotropic and anisotropic.
Intended Learning Outcomes
CILO-1: Students will be able to explain the concepts and principles on mechanics of materials, in terms of elastic behavior, inelastic behavior, anisotropic behavior, fracture behavior, and fatigue behavior.
CILO-2: Students will be able to explain mechanical properties of different materials, including compressive, flexural, tensile and etc., emphasizing the role of processing and microstructure in controlling these properties.
CILO-3: Students will be able to analyze a given problem in a logical manner and apply to its solution a few fundamental principles of mechanics, i.e., dynamic stress analysis.
CILO-4: Students will be able to design actual engineering structures and machine components with suitable material properties (Density, Ductility / Malleability, Elasticity / Stiffness, Fracture Toughness, Hardness, Plasticity, etc.).