Workshop on Finite Element Analysis and Practices through Ansys , November 2015, Geethanjali College of Engineering & Technology, HYDERABAD, TELANGANA, INDIA

College/University/Organization Name: Geethanjali College of Engineering & Technology
Organizing Department: Department of Mechanical Engineering
Event Date: 2015-11-30 -- 2015-12-05    (YYYY/MM/DD)
Last Date: 2015-11-27    (YYYY/MM/DD)
Address: HYDERABAD, TELANGANA, INDIA

Registration Fee:
The Registration fee for Faculty from AICTE approved institutions/Colleges will be Rs. 1000/- (Non Refundable, which includes Hi-Tea, and Lunch).

College/University/Organization Website: http://www.geethanjaliinstitutions.com/


Email Address: devaiah.malkapuram@gmail.com

About Event:
CONTENTS OF WORKSHOP

Theory: Introduction FEA, Virtual work and Energy based FEM, Shape functions and boundary conditions, Evaluation of stiffness matrix for Axial, Truss, Beam and Frame elements.

Practical’s: Axial, 2D Truss, 3D truss, Beams with or without cuts, spring elements for both static and thermal loading.

Theory: Plan stress, plane strain, axisymmetric elements. Material isotropy, Orthotropic, Anisotropy, In plane elements: CST, Quad4, Isoparametric elements.

Practical’s: Plane and Spatial trusses elements along with the structure

Beam elements with problems on beam problems along with various boundary conditions.

In plane elements triangular and quadrilateral elements, plane elasticity: plane stress, strain and Axisymmetric solids.

Materials modulus isotropic and orthotropic shell elements: General shell, layered shells with various curved shell analysis.

Theory: Higher order elements, super elements, lagrangian and serendipity elements, Natural coordinates, Numerical integration, Gaussian quadrants, 3D solids: Tetrahedron and brick elements problems on 3D structures, layered solids free and mapped mesh with Mesh convergence.

Practical’s: Free and Mapped mesh, Shell mesh, 3D mesh with tets and bricks. Analysis of 3D structures, Stress concentrations, Layered analysis, Plates and shell analysis.

Theory: Model analysis: Lumped, Consistent mass, Normalized modes. Eigen values and Eigen vectors. Harmonic analysis, Transient dynamics, Axial, Beam and 2D analysis

Practical’s: model analysis using subspace, Lanczo’s reduced and damping with lumped and consistent mass

Harmonic Analysis: Frequency response of Beams, 2D, 3D and shell structures.

Transient Dynamics: Time response of structures with load steps

Buckling Analysis: Critical loads and buckling factors.

Theory:  Thermal: steady state and transient heat transfer, Fracture Mechanics: SERR, SIF.

Fracture Mechanics: Crack tip elements, evaluation of SIF’s.

Heat transfer: Study state and transient conduction and convection models.

Practical’s: Problems on fins, walls and typical chimneys, solidification studies. Thermal by structural coupling contact analysis.

Contact Details:
COORDINATOR:         
Dr. M. Devaiah.
CO-COORDINATORS:
K. Laxmi Reddy            
K. Vijay
B. V. Sravan Kumar
contact no:9948606326, 9700278304, 9490190605

 “Finite Element Analysis and Practices through Ansys” -2015-Geethanjali College of Engineering & Technology-HYDERABAD-TELANGANA-INDIA

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