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TAM 270 - Design for Manufacturability

Last offered Spring 2023

Official Description

Course Information: Same as ME 270. See ME 270.

Detailed Course Description

Introduction to DFM methodologies and tools; material selection (new and traditional materials); designing for primary manufacturing processes (cutting fundamentals, casting, forming, and shaping); designing with plastics (snap-fits, integral hinges, etc.); design for assembly (DFA); Geometric Dimensioning and Tolerancing (GD&T). Prerequisite: ME 170. 3 undergraduate hours.

DFM methodologies and tools:

1. DFM overview/strategy

2. Quality function deployment (QFD)

3. Concept Selection

4. Product Design Specification

5. Design for assembly (DFA)

6. Design for Economic Manufacture (material removal, casting, forming, & shaping)

7. Designing with plastics (snap-fits, integral hinges, etc.)

8. Geometric Dimensioning and Tolerancing (GD&T)

9. Selection of materials (life-cycle economics)

Laboratory Projects:

1. Introduction to machine tools (in machine shop)

2. Injection Molding

3. CNC Machining

4. Sand Casting

5. Rapid Prototyping

6. Water Jet Cutting

7. Design of Experiments

8. Inspection/metrology (CMM/GD&T)

DFM Team Design Project:

Students will work in teams of 3 throughout the semester to design and build a functional prototype of a small mechanical or electro-mechanical product with your partner. The product should be of their own design and have something new or different about it; innovation will be a portion of the grade. It does not have to define a new problem; it can also provide a novel and/or economic solution to an existing problem. For example: an electromechanical toothbrush designed for use by disabled or motion-impaired, a garden hose attachment that automatically washes your car while you sleep, a shoe cleaning attachment for a vacuum cleaner, shoes that transform into a skate board……

ME: Required.

EM: Possible secondary field, with approval.

TitleSectionCRNTypeHoursTimesDaysLocationInstructor
Design for ManufacturabilityAB168580LAB01300 - 1450 M  0023B Sidney Lu Mech Engr Bldg Ziyao Guo
Design for ManufacturabilityAB268581LAB01500 - 1650 M  0023B Sidney Lu Mech Engr Bldg Ziyao Guo
Design for ManufacturabilityAB368583LAB01100 - 1250 T  0023B Sidney Lu Mech Engr Bldg Junyoung Lee
Design for ManufacturabilityAB468584LAB01300 - 1450 T  0023B Sidney Lu Mech Engr Bldg Junyoung Lee
Design for ManufacturabilityAB568585LAB01700 - 1850 T  0023B Sidney Lu Mech Engr Bldg Ben Yang
Design for ManufacturabilityAB668587LAB01200 - 1350 W  0023B Sidney Lu Mech Engr Bldg Junyoung Lee
Design for ManufacturabilityAB768588LAB01400 - 1550 W  0023B Sidney Lu Mech Engr Bldg Ryan Wai Yin Siu
Design for ManufacturabilityAB868589LAB01600 - 1750 W  0023B Sidney Lu Mech Engr Bldg Ben Yang
Design for ManufacturabilityABA68591LAB01000 - 1150 R  0023B Sidney Lu Mech Engr Bldg Ben Yang
Design for ManufacturabilityABB68592LAB01200 - 1350 R  0023B Sidney Lu Mech Engr Bldg Irwin Loud, IV
Design for ManufacturabilityAL168578LEC31500 - 1550 T R  100 Materials Science & Eng Bld  Bruce Flachsbart