ApL108: Difference between revisions
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| credits = 5 | | credits = 5 | ||
| credit_structure = 3-1-2 | | credit_structure = 3-1-2 | ||
| pre_requisites = APL100 | | pre_requisites = [[APL100]] | ||
| overlaps = APL104, APL105 | | overlaps = [[APL104]], [[APL105]] | ||
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== ApL108 : Mechanics of Solids == | == ApL108 : Mechanics of Solids == | ||
Introduction, State of stress at a point, equations of motion, principal stress, maximum shear stress. Concept of strain, strain displacement relations, compatibility conditions, principal strains, transformation of stress/strain tensor, state of plane stress/strain. Constitutive relations, uniaxial tension test, idealized stress-strain diagrams, isotropic linear elastic, viscoelastic and elasto-plastic materials. Energy Methods. Uniaxial stress and strain analysis of bars, thermal stresses, Torsion, Bending and shear stresses in beams, deflection of beams, stability of equilibrium configuration. | Introduction, State of stress at a point, equations of motion, principal stress, maximum shear stress. Concept of strain, strain displacement relations, compatibility conditions, principal strains, transformation of stress/strain tensor, state of plane stress/strain. Constitutive relations, uniaxial tension test, idealized stress-strain diagrams, isotropic linear elastic, viscoelastic and elasto-plastic materials. Energy Methods. Uniaxial stress and strain analysis of bars, thermal stresses, Torsion, Bending and shear stresses in beams, deflection of beams, stability of equilibrium configuration. | ||
Latest revision as of 16:22, 14 April 2026
| ApL108 | |
|---|---|
| Mechanics of Solids | |
| Credits | 5 |
| Structure | 3-1-2 |
| Pre-requisites | APL100 |
| Overlaps | APL104, APL105 |
ApL108 : Mechanics of Solids
Introduction, State of stress at a point, equations of motion, principal stress, maximum shear stress. Concept of strain, strain displacement relations, compatibility conditions, principal strains, transformation of stress/strain tensor, state of plane stress/strain. Constitutive relations, uniaxial tension test, idealized stress-strain diagrams, isotropic linear elastic, viscoelastic and elasto-plastic materials. Energy Methods. Uniaxial stress and strain analysis of bars, thermal stresses, Torsion, Bending and shear stresses in beams, deflection of beams, stability of equilibrium configuration.