:::
  • Go Back

Computer Aided Engineering with ANSYS

Computer Aided Engineering with ANSYS

  • HITS: 6249
  •  
Share To:

 

Course Name

Computer Aided Engineering with ANSYS

Course Description

This course teaches students how to use a general-purpose finite element software to solve practical mechanical engineering problems. ANSYS is an easy-to-use and general-purpose finite element modeling package for numerically solving a wide variety of mechanical problems. These problems include: static/dynamic structural analysis (both linear and non-linear), heat transfer, electrical, magnetic and fluid problems, as well as acoustic and electromagnetic problems. For this course, we will run FEM commercial software - ANSYS in Windows 2000.

 

Teacher

Jeng-Shian Wang

Class Name

Graduate Program of Electro-acoustics

(1st year)

Semester

1

Course Property

Elective

Language of Instruction

Chinese

 

Assessment methods

·                       Graded items and Proportions

1.                                  Homework 30%

2.                                  Midterm Exam 30%

3.                                  Final Exam 40%

·                       Midterm exam is by computer

 

Text Book (Title, Author, Publisher/Local Representative, Explanation)

Saeed Moaveni , Finite Element Analysis—Theory and Application with ANSYS, 2nd Ed., Prentice Hall

 

Reference Materials(Title, Author, Publisher/Local Representative, Explanation)

1. 康淵、陳信吉,ANSYS 入門,全華科技 (in Chinese)
2.
陳精一,電腦輔助工程分析 -- ANSYS使用指南,全華科技 (in Chinese)
3. D.L. Logan, A First Course in the Finite Element Method
Brook/Cole.

 

Teaching schedule & content (week, title and content of unit, assignment/quiz, remark)

Week

Title and content of unit

Assignments/Quizzes

Remark

01

Introduction to CAE, FEM, and ANSYS

 

 

02

Finite Element Method

 

 

03

Programming – 1 Dimension

 

 

04

Fundamental Operation of ANSYS

HW

 

05

Statical Analysis of Structure

HW

 

06

Statical Analysis of Structure

HW

 

07

Establishment of Finite Element in 1D, 2D(3D)

HW

 

08

Establishment of Finite Element in 1D, 2D(3D)

HW

 

09

Connection Between CAD and CAE

 

 

10

Writing of APDL(ANSYS Parametric Design Language )

HW

 

11

Writing of APDL(ANSYS Parametric Design Language )

HW

 

12

Writing of APDL APDL(ANSYS Parametric Design Language )

HW

 

13

Midterm Exam

Via Computer

 

14

Analysis of Composite Material

 

 

15

Analysis of Composite Material

HW

 

16

Optimal Design

 

 

17

Optimal Design

HW

 

18

Final Report

 

 

 

Teaching strategies and assessment methods for course objectives

Teaching objectives

Teaching Strategies

Assessment method

Understand fundamental concepts of finite elements method and computer operation rules

Lecture and operation on computer

HW, Midterm exam

Cultivate understanding of concepts and applications of CAE, and to develop ability to solve practical problems.

Lecture and operation on computer

HW, Midterm exam, Final report

 

Cultivate ability to write in ANSYS language, as well as to write APDL program and develop practical applications. 

Lecture and operation on computer

HW, Midterm exam, Final report

 

 

Teaching Type

Lecture

Discussion

/Reports

Experiments

/Internship

/Field trips

Total

Credit Allocation

3

 

 

3

Class Time Allocation

3

 

 

3