ApL805: Difference between revisions
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| credits = 3 | | credits = 3 | ||
| credit_structure = 3-0-0 | | credit_structure = 3-0-0 | ||
| pre_requisites = APL705 | | pre_requisites = [[APL705]] | ||
| overlaps = | | overlaps = | ||
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== ApL805 : Advanced Finite Element Method == | == ApL805 : Advanced Finite Element Method == | ||
Variational calculus; Weak formulation of governing equations and its linearization; discretization of nonlinear weak form and its solution; convergence requirement of shape functions; systematic generation of higher order elements; mixed FEM/penalty method; non-uniform and adaptive discretization – p and H convergence; solid-fluid interaction problems; Generalized and extended finite element methods. ApV 808 planar Contact Mechanics 1 Credit (1-0-0) AML731 or APL796 or an equivalent course in Linear Elasticity Plane Contacts: Surface traction, interior stress fields, partial slip rough contacts, numerical techniques. | Variational calculus; Weak formulation of governing equations and its linearization; discretization of nonlinear weak form and its solution; convergence requirement of shape functions; systematic generation of higher order elements; mixed FEM/penalty method; non-uniform and adaptive discretization – p and H convergence; solid-fluid interaction problems; Generalized and extended finite element methods. ApV 808 planar Contact Mechanics 1 Credit (1-0-0) [[AML731]] or [[APL796]] or an equivalent course in Linear Elasticity Plane Contacts: Surface traction, interior stress fields, partial slip rough contacts, numerical techniques. | ||
Latest revision as of 16:22, 14 April 2026
| ApL805 | |
|---|---|
| Advanced Finite Element Method | |
| Credits | 3 |
| Structure | 3-0-0 |
| Pre-requisites | APL705 |
| Overlaps | |
ApL805 : Advanced Finite Element Method
Variational calculus; Weak formulation of governing equations and its linearization; discretization of nonlinear weak form and its solution; convergence requirement of shape functions; systematic generation of higher order elements; mixed FEM/penalty method; non-uniform and adaptive discretization – p and H convergence; solid-fluid interaction problems; Generalized and extended finite element methods. ApV 808 planar Contact Mechanics 1 Credit (1-0-0) AML731 or APL796 or an equivalent course in Linear Elasticity Plane Contacts: Surface traction, interior stress fields, partial slip rough contacts, numerical techniques.