ME 471

ME 471 - Finite Element Analysis

Fall 2022

Title	Rubric	Section	CRN	Type	Hours	Times	Days	Location	Instructor
Finite Element Analysis	AE420	B3	36855	LEC	3	0900 - 0950	M W F	103 Transportation Building	Huck Beng Chew
Finite Element Analysis	AE420	B4	62978	LEC	4	0900 - 0950	M W F	103 Transportation Building	Huck Beng Chew
Finite Element Analysis	AE420	ONL	59126	ONL	3	-			Huck Beng Chew
Finite Element Analysis	CSE451	B3	36852	LEC	3	0900 - 0950	M W F	103 Transportation Building	Huck Beng Chew
Finite Element Analysis	CSE451	B4	62979	LEC	4	0900 - 0950	M W F	103 Transportation Building	Huck Beng Chew
Finite Element Analysis	CSE451	ONL	59127	ONL	3	-			Huck Beng Chew
Finite Element Analysis	ME471	B3	36848	LEC	3	0900 - 0950	M W F	103 Transportation Building	Huck Beng Chew
Finite Element Analysis	ME471	B4	62977	LEC	4	0900 - 0950	M W F	103 Transportation Building	Huck Beng Chew
Finite Element Analysis	ME471	ONL	41754	ONL	3	-			Huck Beng Chew

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Web Page

https://canvas.illinois.edu/courses/17657

Official Description

The finite element method and its application to engineering problems: truss and frame structures, heat conduction, and linear elasticity; use of application software; overview of advanced topics such as structural dynamics, fluid flow, and nonlinear structural analysis. Course Information: Same as AE 420 and CSE 451. 3 or 4 undergraduate hours. 3 or 4 graduate hours. Credit is not given for both ME 471 and CEE 470. Prerequisite: CS 101 and ME 371 or TAM 470. Alternatively, AE 370 for AE students.

Detailed Course Description

The finite element method and its applications to engineering problems: truss and frame structures, heat conduction, and linear elasticity; use of application software; overview of advanced topics such as structural dynamics, fluid flow, and nonlinear structural analysis. Prerequisite: CS 101 and ME 370, or consent of instructor. 3 undergraduate hours or 4 graduate hours. Credit is not given for more than one of the following courses: CEE 470, and ME 471. Same as AE 420 and CSE 451.

TOPICS:

1. Introduction and review matrix methods

2. Fundamentals of finite elements

3. Application to solid mechanics: truss elements, beam elements, plate and shell elements, constant strain triangle, vibration problems

4. Programming commercial packages (e.g., ANSYS, ABAQUS, and/or FIDAP)

5. Application to heat transfer: one-dimensional, two-dimensional, transient problems, thermal stress

6. Advanced topics: numerical integration methods, isoparametric elements, fluid mechanics and nonlinear problems

COMPUTER USAGE:

This course has heavy computational demands with students writing, compiling, running, and extracting results from their own program(s) implementing the finite element method in FORTRAN and in addition, using a commercial finite element package (ANSYS, ABAQUS or FIDAP) to solve a practical problem. This is done in a UNIX environment on graphics terminals attached to an HP9000 minicomputer in the department computer laboratory, the CSO Convex, or other available computer workstations.

COURSE WEBSITE

ME: MechSE or technical elective.

EM: Possible secondary field, with approval.

Last updated

9/25/2018

Questions?
MS/PhD: mechse-grad@illinois.edu
M.Eng.ME: mechse-meng@illinois.edu

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