Advanced Bioproduction System and
Information Engineering, Academic Year 2003
Time Thursday 12:50-14:20 Room
255
Instructor
Shikanai Takeshi tshikana@agr.u-ryukyu.ac.jp Office 267
Office
hour Monday 10:00-12:00 and 15:00-16:00
Friday 15:00-17:00
Except 4/25(fri),5/2(fri)
The
class content
The
base of the finite element method that is one technique of numerical analysis
is explained, and the utilization of the finite element method in structure
analysis and thermal analysis is explained. This class is intended for "a highly motivated beginner" who have
a knowledge of to some extent mathematics and dynamics.
数値解析の1つの手法である有限要素法について,その基礎と構造解析における有限要素法の利用について解説する。対象は「やる気のある初心者」とし,ある程度の数学と力学の知識をもっているものとする。
1.4/17 The fundamental equation of one-dimensional
elastic body.
2.4/24 Approximate
solution
3.5/1 The
weighted residual method
4.5/8
The Ritz's method ( variational method )
5.5/15 The
basic theory of finite element method
6.5/29 The
one-dimensional finite element method
7.6/5 The
isoparametric element
8.6/12 Practical
training
9.6/19 The
finite element method of the two-dimensional problem
10.6/26 The
isoparametric element of the two-dimensional problem
11.7/3 The
shape function
12.7/10 The
Gauss integral
13.7/17 The
Lagrange multiplier
14.7/24 The example of the structure
analysis of the engine by finite element method
The achievement goal
It would be able to
read 3 chapters (from Chapter 1 to Chapter 3, especially Chapter 3) of
"The Finite Element Method" by Zienkiewicz by yourself.
O. C. Zienkiewicz, The
Finite Element Method Third Edition, McGraw-Hill, 1997
O.C.ツィエンキビッツ著 吉識雅夫,山田嘉昭 監訳「マトリクス有限要素法 三訂版」
培風館 1984 11000円
The
grade.
Assignment (40%)
The
term end test (60%)
The
home page for the class
http://www.cc.u-ryukyu.ac.jp/~tshikana/
The
assignment is shown in the URL above as soon as possible after the class
end.