Instructor: Professor Pan Michaleris
232 Reber Bldg
Office hours: Tuesday & Thursday: 11:00-12:00
Text:Class notes (password given to registred students)
T. Belytscho, W.K. Liu, and B. Moran. Nonlinear Finite Elements for Continua and Structures. Wiley, NY 2000.
K.-J. Bathe. Finite Element Procedures. Prentice Hall, NJ 1996.
M.A. Crisfield. Non-linear Finite Element Analysis of Solids and Structures . Volume 1, Wiley, NY 1991.
R.D. Cook, D.S. Malkus, and M.E. Plesha. Concepts and Applications of Finite Element Analysis. Wiley, NY 1989.
T.R. Chandrupatla and A.D. Belegundu. Introduction to Finite Elements in Engineering. Prentice Hall, NJ 1997.
References on Matlab:
Amos Gilat. Matlab. An introduction
with applications. John Wiley. 2004. ISBN:
D. M. Etter, D. C. Kuncicky, D. Hull. Introduction to MATLAB 6, Prentice Hall 2001. ISBN:0-13-032845-5.
D. Hanselman, B. Littlefield. Mastering MATLAB 6, A comprehensive tutorial and reference, Prentice Hall 2001. ISBN:0-13-019468-9.
E. B.Magrab, S. Azarm, B. Balachandran, J. Duncan, K. Herold, G.
Walsh. An engineer's guide to MATLAB,
Prentice Hall 2000. ISBN : 0-13-011335-2.
Prerequisites: ME/EMCH 461 or EMCH 560 or AGE 513
Biweekly (computer) projects (70%)
Final computer project (30%)
The objective of this course is to introduce the theory and application of the finite element method for non-linear systems. Non-linearities arising from both material behavior and large deformations will be discussed.
Applications of non-linear finite element methods include:
The course is suited to graduate students in Mechanical Engineering,
Industrial, and Manufacturing Engineering and Material Science.
Project 1 , due Sep 9
Project 2, Problem 3.2 from nodes, due Sep 21
Project 3 , due Sep 28
Project 4 , due Oct 14
Project 5, due Nov 4
Project 6, Problems 3.3and 5.2 from notes, due Nov 23
Final project , send proposal by Nov 16, project report due Dec 9.
Unix Systems Group
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