Solid Mechanics I
Solid Mechanics I
2nd year course for engineering students. Solid Mechanics I involves the study of stress and strain caused by various loadings (axial force, torque, moment, shear force). The course builds on the foundational knowledge from
Statics
.
Suitable for:
Civil engineering
Mechanical engineering
Structural engineering
Mining engineering
Aerospace engineering
Chapter 1: Stress, Strain and Mechanical Properties
C1.1 Normal and Shear Stress
C1.2 Deformation and Strain
C1.3 Mechanical Properties of Materials
Chapter 1: Stress, Strain and Mechanical Properties
C1.1 Normal and Shear Stress
C1.2 Deformation and Strain
C1.3 Mechanical Properties of Materials
Chapter 2: Axial Load
C2.1 Elastic Deformation
C2.2 Statically Indeterminate Analysis
C2.3 Thermal Deformation
Chapter 2: Axial Load
C2.1 Elastic Deformation
C2.2 Statically Indeterminate Analysis
C2.3 Thermal Deformation
Chapter 3: Torsion
C3.1 Torsion Formula
C3.2 Power Transmission
C3.3 Angle of Twist
C3.4 Statically Indeterminate Analysis with Torque
Chapter 3: Torsion
C3.1 Torsion Formula
C3.2 Power Transmission
C3.3 Angle of Twist
C3.4 Statically Indeterminate Analysis with Torque
Chapter 4: Bending
C4.1 Shear Force and Bending Moment Diagrams
C4.2 Flexure Formula
Chapter 4: Bending
C4.1 Shear Force and Bending Moment Diagrams
C4.2 Flexure Formula
Chapter 5: Transverse Shear
C5.1 Shear Formula
Chapter 5: Transverse Shear
C5.1 Shear Formula
Chapter 6: Combined Loadings
C6.1 Thin-Walled Pressure Vessels
C6.2 Stress from Combined Loadings
Chapter 6: Combined Loadings
C6.1 Thin-Walled Pressure Vessels
C6.2 Stress from Combined Loadings
Chapter 7: Stress Transformation
C7.1 Equations of Plane-Stress Transformation
C7.2 Principal
σ
and
τ
max in-plane
C7.3 Mohr’s Circle
C7.4 3D Mohr’s Circle and
τ
abs-max
Chapter 7: Stress Transformation
C7.1 Equations of Plane-Stress Transformation
C7.2 Principal
σ
and
τ
max in-plane
C7.3 Mohr’s Circle
C7.4 3D Mohr’s Circle &
τ
abs-max
Chapter 8: Strain Transformation
C8.1 Equations of Strain Transformation
C8.2 Mohr’s Circle for Strain
C8.3 Generalised Hooke’s Law
C8.4 Theories of Failure
Chapter 8: Strain Transformation
C8.1 Equations of Strain Transformation
C8.2 Mohr’s Circle for Strain
C8.3 Generalised Hooke’s Law
C8.4 Theories of Failure
Chapter 9: Deflections of Beams and Shafts
C9.1 Integration Method
C9.2 Discontinuity Functions (Macaulay’s Method)
Can’t find the topic you’re looking for? It might be in
Solid Mechanics II
Chapter 9: Deflections of Beams and Shafts
C9.1 Integration Method
C9.2 Discontinuity Functions (Macaulay’s Method)
Can’t find the topic you’re looking for? It might be in
Solid Mechanics II