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COURSE DESCRIPTION

Industrial and Manufacturing Engineering - Three Dimensional Modeling in Product Design (3) (3,0) (IME 375)

Required Course

Fall Semesters 2007 - 2008

2007-2008

Catalog Data:

375-3 Three Dimensional Modeling in Product Design.

Computer-aided product design process in computer integrated design and manufacturing environments, 3-D solid modeling, CAD/CAM, concurrent engineering. Prerequisites: MATH 150 or equivalent, or consent of instructor.

Textbook(s):

Computer Aided Design with Unigraphics: Engineering Design in Computer Integrated Design and Manufacturing, Lee, H.F. and Fulton, D.W., sixth edition, 2007, Kendall/Hunt Publishing Company.

Coordinator:

H. Felix Lee, Professor of Industrial and Manufacturing Engineering.

Topics and Schedule:

1.   Introduction to A Manufacturing Enterprise and Product Life Cycle (1 hour).

2.   Product Development Process (3 hours).

3.   CAD/CAM and Geometric Modeling (3 hours).

4.   Geometric Transform and Parametric Model (3 hours).

5.   Solid modeling and Model Construction Query (3 hours).

6.   Primitives and Form Features and Expression (3 hours).

7.   Face and Edge Operations (3 hours).

8.   Master Model and Concurrent Engineering (3 hours).

9.   Datum Planes and Axis (3 hours).

10. Introduction to Assembly Modeling (3 hours).

Topics and Schedule: (continued)

11. Boolean Operations (3 hours).

12. Swept Features (3 hours).

13. Instance Arrays (1 hour).

14. Sketching (3 hour).

15. Wireframe Modeling (3 hours).

16. Drafting (3 hours).

Professional Component:

This course introduces computer-aided product design with the emphasis on 3D solid modeling to junior-level engineering students.  The course is an engineering topics course with significant engineering design content.

Course Outcomes

Students successfully completing this course will have the ability to:

1.   Understand different geometrical modeling approaches

2.   Understand the impact of 3-D product models on Computer Integrated Design and Manufacturing.

3.   Develop 3-D models for individual components with various geometries.

4.   Develop 3-D assembly models using the bottom-up approach.

Prepared by:

H. Felix Lee, Professor of Industrial and Manufacturing Engineering.

Date:

May 18, 2008

Program Educational Objective.Outcome

General Course Outcomes

IME 375  Three Dimensional Modeling in Product Design

1

2

3

4

1.1

1.2

1.3

P

P

P

1.4

2.1

2.2

2.3

2.4

3.1

3.2

P

P

3.3

3.4

P

3.5

4.1

4.2

4.3

4.4