Day 1: Race Against Time

Day 2: Course Objectives

Day 3: Why Manufacturing Engineering?

Day 4: Productivity & Industry Profit

Day 5: Materials & Manufacturing

Day 6: Design for Manufacturability

Day 7: Manufacturing Process Taxonomies

Day 8: Mechanical Reduction

Day 9: Mechanical Reduction

Day 10: Thermal Reduction

Day 11: Exam 1

Day 12: Chemical Reduction

Day 13: Consolidation

Day 14: Deformation

	Stress States in Mass Conserving Processes
	Processes with Compression as the Dominant Stress
	Deformation by Compression
	Processes with Tension as the Dominant Stress
	Processes with Bending as the Dominant Stress
	Processes with Shearing as the Dominant Stress
	Important Considerations of Mass Conserving Processes
	Tensile Stress - Strain Diagrams
	Tool / Die Motions & Materials
	Important Process Conditions
	Manufacturing Processes Taxonomy
	Compacting Processes
	Delco Remy Magnetics
	Lab Diagram
	Shaping Compaction
	Process Engineering Challenges
	Using Granular Work Materials
	Steps of Consolidation Processes
	Compaction Methods for Metal Powders
	Post Sintering Operations
	Sintering
	Some Considerations
	Aluminum
	Impact Extrusions
	Fractures in a Cold-Rolled Bar
	Stress and Fracture in Glass
	Hammer Peening
	Stress and Fatigue in Metals
	Stress and Fatigue in Metals 2

Day 15: Mechanical Joining

Day 16: Chemical Joining

Day 17: Thermal Joining

Day 18: Heat Treatment

Day 19: Surface Finish

Day 20: Food, Shelter, Clothing

Day 21: Future Manufacturing Developments

Day 22: Final Review