Delve into advanced concepts of materials science and engineering in this comprehensive 22-hour course. Review fundamental principles from Strength of Materials I before exploring complex topics such as stress transformation, 3D analysis, combined loadings, and thin-walled pressure vessels. Master beam and shaft design techniques, learn various methods for calculating beam deflection, and understand the differences between plane strain and plane stress. Examine strain transformation, Mohr's Circle for strain, and strain energy concepts. Apply strain-energy and work-energy methods, study Castigliano's Theorem, and investigate column buckling under centric and eccentric loadings. Conclude with practical column design using empirical equations from AISC standards.
Overview
Syllabus
Strength of Materials II: Review of Strength of Materials I (Torsion, Bending, etc.) (1 of 19).
Strength of Materials II: Review Mohr's Circle, Principal Stresses (2 of 19).
Strength of Materials II: Stress Transformation, 3D Analysis (3 of 19).
Strength of Materials II: Combined Loadings, State of Stress (4 of 19).
Strength of Materials II: Thin-Walled Pressure Vessels (5 of 19).
Strength of Materials II: Principal Stresses in Beams, Beam Design (6 of 19).
Strength of Materials II: Shaft Design (7 of 19).
Strength of Materials II: Deflection of Beams, Integration Methods (8 of 19).
Strength of Materials II: Integration Method; Application to Indeterminate Beams (9 of 19).
Strength of Materials II: Deflection of Beams, Singularity Methods (10 of 19).
Strength of Materials II: Singularity Method; Application to Indeterminate Beams (11 of 19).
Strength of Materials II: Deflection of Beams, Superposition Method (12 of 19).
Strength of Materials II: Plane Strain vs Plane Stress (13 of 19).
Strength of Materials II: Strain Transformation, Mohr's Circle for Strain (14 of 19).
Strength of Materials II: Strain Energy (15 of 19).
Strength of Materials II: Strain-Energy and Work-Energy Methods (16 of 19).
Strength of Materials II: Castigliano's Theorem and Design (17 of 19).
Strength of Materials II: Buckling of Columns; Centric and Eccentric Loadings (18 of 19).
Strength of Materials II: Column Design, Empirical Equations AISC (19 of 19).
Taught by
CPPMechEngTutorials
