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Related lectures (32)
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Biomechanical Tissues: Non-linear Constitutive Laws
Explores biomechanics at the tissue level, focusing on constitutive laws, stress-strain curves, and treatment options for ACL rupture.
Nonlinear Beam Theory
Covers stress-strain relations, constitutive relations, and buckling of a circular ring in nonlinear beam theory.
Plasticity: Engineering vs True Stress and Strain
Explores the conversion from engineering to true stress and strain measures, highlighting their impact on material behavior.
Flexible Bioelectronics: Sensors and Substrates
Covers design considerations, skin structure, stress and strain, mechanoreceptors, substrates, and strain effects on electrical resistance in flexible bioelectronics.
Traction Function: Modulus and Resistance
Explores the traction function, hardening modulus, resistance, and evaluation methods.
Tensile Curve and Resistance: Material Behavior Analysis
Explores material behavior through tensile curves, resistance, and stress analysis.
Geometrically Necessary Dislocations in Materials
Explains geometrically necessary dislocations in materials and their role in reducing work hardening.
Hardening Elasto-Plasticity
Covers plastic flow, elastic domain, yield function, hardening rule, and stress-strain relationship in hardening elasto-plasticity models.
Deformation and Rupture of Materials
Explores the deformation and rupture of materials, including dislocation density, plastic deformation, and stress-strain relationships.
Geomechanics: Course Introduction
Introduces the study of geomechanics, covering the behavior of soils, rocks, and concrete in civil engineering applications.
