Gels: Swelling, Deformation, and Applications

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Related lectures (32)

Materials Science: Mechanical Properties

Explores plasticity, elasticity, and deformation in materials, covering tensile stages, shear modulus, and work hardening.

Deformations and Elasticity

Covers deformations, elasticity, stress distribution, and force transmission in cells.

Constraints and Deformations in 3D

Explores constraints and deformations in 3D, stress matrices, internal forces, and shear stresses.

Elasticity-Plasticity: Materials Science Fundamentals

Covers elasticity, plasticity, stress-strain relationships, and material behavior under different loading conditions.

Strain and Stress in One Dimension

Explores stress-strain relationships, Hooke's law, materials classification, and equilibrium in one dimension, emphasizing the superposition principle.

Linear Elasticity and Atomic Structure

Explores linear elasticity properties of materials and their atomic structure, covering stresses, strains, rigidity, and loading cases.

Deformation and Strain Tensors

Explores deformation and strain tensors, Lagrange representation, elasticity theory, and the divergence theorem.

Elastic Deformation: Materials Behavior & Homogenization

Explores elastic deformation, thermal expansion, and homogenization techniques in materials behavior.

Continuum Mechanics: Forces and Deformation

Covers the basics of continuum mechanics, including forces transmission, energy conservation, and body motion geometry.

Deformation Part 2: Plasticity and Torsion Tests

Delves into plasticity, torsion tests, hardness techniques, and material stability criteria.

Chemistry: Atomic Structure and Thermodynamics

Covers atomic structure, thermodynamics, material properties, and ideal gas law.

Polymer Structure and Mechanical Behavior

Explores polymer structure, properties, and behavior under different conditions, emphasizing the impact of temperature and molecular structure.

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