# Uni-Axial Tensile Strain - Mechanics of Soft Materials - Lecture Notes

The key points are:Uni-Axial Tensile Strain, Wrinkling of Thin Sheet, Poisson’s Ratio, Young’s Modulus, Poisson Effect, Clamped Boundary, In-Plane Strain Incompatibility, Bending Energy, Stretching Energy, Fictitious Transverse Force

# Theory of Incremental Stresses - Mechanics of Soft Materials - Lecture Notes

The key points are:Theory of Incremental Stresses, Two Dimensional Stress, Tangential Component, Stress Components, Orthogonal Axes, Symmetric Property, Torque of Resulting Stresses, Initial Stress Field, Approximate Value

# Torsion of Rods - Mechanics of Soft Materials - Lecture Notes

The key points are:Torsion of Rods, Problem of Torsion, Stress Equilibrium Relations, Boundary Conditions, Arbitrary Cross Section, Co-Ordinate System, Angle of Rotation, Displacement Vector, Components of Stress Tensor, Equilibrium Relations

# Torsion of Rods - Mechanics of Soft Materials - Lecture Notes

The key points are:Torsion of Rods, Problem of Torsion, Stress Equilibrium Relations, Boundary Conditions, Arbitrary Cross Section, Co-Ordinate System, Angle of Rotation, Displacement Vector, Components of Stress Tensor, Equilibrium Relations

# Uni-Axial Tensile Strain - Mechanics of Soft Materials - Lecture Notes

The key points are:Uni-Axial Tensile Strain, Wrinkling of Thin Sheet, Poisson’s Ratio, Young’s Modulus, Poisson Effect, Clamped Boundary, In-Plane Strain Incompatibility, Bending Energy, Stretching Energy, Fictitious Transverse Force

# Theory of Incremental Stresses - Mechanics of Soft Materials - Lecture Notes

The key points are:Theory of Incremental Stresses, Two Dimensional Stress, Tangential Component, Stress Components, Orthogonal Axes, Symmetric Property, Torque of Resulting Stresses, Initial Stress Field, Approximate Value

# Work and Energy - Mechanics of Soft Materials - Lecture Notes

The key points are:Work and Energy, Intrinsic Energy, Kinetic Energy, Law of Thermodynamics, Unstrained State, External Body Forces, Green’s Transformation, Change in Configuration, Strain Energy Function, Potential Energy

# Three Dimensional Networks - Mechanics of Soft Materials - Lecture Notes

The key points are:Three Dimensional Networks, Free Energy of Deformation, Isotropic Materials, Quadratic Combinations, Rotation of Axes, Energy Density Function, Volume Compression Modulus, Shear Modulus, Strain Tensor Components

# Theory of Incremental Stresses - Mechanics of Soft Materials - Lecture Notes

The key points are:Theory of Incremental Stresses, Two Dimensional Stress, Tangential Component, Stress Components, Orthogonal Axes, Symmetric Property, Torque of Resulting Stresses, Initial Stress Field, Approximate Value

# Three Dimensional Networks - Mechanics of Soft Materials - Lecture Notes

The key points are:Three Dimensional Networks, Free Energy of Deformation, Isotropic Materials, Quadratic Combinations, Rotation of Axes, Energy Density Function, Volume Compression Modulus, Shear Modulus, Strain Tensor Components

# Torsion of Rods - Mechanics of Soft Materials - Lecture Notes

The key points are:Torsion of Rods, Problem of Torsion, Stress Equilibrium Relations, Boundary Conditions, Arbitrary Cross Section, Co-Ordinate System, Angle of Rotation, Displacement Vector, Components of Stress Tensor, Equilibrium Relations

# Uni-Axial Tensile Strain - Mechanics of Soft Materials - Lecture Notes

The key points are:Uni-Axial Tensile Strain, Wrinkling of Thin Sheet, Poisson’s Ratio, Young’s Modulus, Poisson Effect, Clamped Boundary, In-Plane Strain Incompatibility, Bending Energy, Stretching Energy, Fictitious Transverse Force

# Uniform Pressure - Mechanics of Soft Materials - Lecture Notes

The key points are:Uniform Pressure, Pressure Applied to Circular Region, Depression of Surface, Complete Elliptic Integral, Mean Displacement, Tangential Displacement, Axial Symmetry, Radial Component, Radial Stress, Stress Components