DRAGON INNOVATION, INC. DESIGN FOR MANUFACTURING COURSE 8: PART 1 - MACHINING (CNC) SCOTT N. MILLER | CEO | @DRAGONINNOVATE | WWW.DRAGONINNOVATION.COM
Design for Manufacturing - Course 8 Part 1 - Machining (CNC)
Jul 13, 2015
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DRAGON INNOVATION, INC. !
DESIGN FOR MANUFACTURING !
COURSE 8: PART 1 - MACHINING (CNC) !!!!!!
SCOTT N. MILLER | CEO | @DRAGONINNOVATE | WWW.DRAGONINNOVATION.COM
•Overview •Process •Part Design •Materials
AGENDA
Machining (CNC) Overview
Typical Machined Parts
• Precision Gears
• Fittings
• Drive Components
Machining Advantages
• Wide range of materials available. • Does not require uniform wall thickness. Can create
geometry not possible with injection molding. • Does not require tooling. • Ability to make changes quickly. • Repeatable and precise.
Machining Disadvantages
• Depending on geometry, can result in long cycle times. • Limitations on possible geometry (i.e. no hollow vessels). • Subtractive process can be wasteful • Requires clamping area which can restrict the design.
Machining Process
Overview
• Subtractive process (i.e. wasteful) • Tools: Lathe (H/V), Mill (H/V), Drill, Grind • Process: Material or cutting tool moves • Machines hold both tool and workpiece, and provide
relative motion between the two. • Rough and Finish Cuts • Cost driven by material, time, tools, overhead,
maintenance. • Tolerances
– Easy: > 0.01” – Medium: >0.002” – Expensive: >0.0005”
Lathe
• Used to create features around an axis of revolution.
• Material Rotates
• Processes
– Turning
– Facing
– Boring
– External Threading
– Cut-Off
Mill
• Process
– Horizontal Surfacing
– Vertical Surfacing
– Form Cutting / Pocketing
– Slotting
– Straddle
– Angular
– Drilling
Mill
Drill
• Process
– Center Drill
– Drill (typ L <= 5D)
– Ream
– Spot Face
– Tap
Grinding
• Surface Grinding
• Plunge Grinding
https://www.youtube.com/watch?v=sesxx-‐U_0FU
Machining Part Design
Design Guidelines• Pre-shape (near net shape) to reduce time and waste. • Use COTS components manufactured in high volume. • Select materials that are easy to machine. • Use only one machine / tool if possible. • Avoid re-chucking to create concentric features. • Design component so machining is only required on
exposed surfaces when gripped. • External diameters should increase. • Internal diameters should decrease. • Avoid drilling holes in long slender components. • Avoid tool interference with component • Avoid thin, flat components that are difficult to grip. • Avoid blind, curved holes.
Reference: Product Design for Manufacture and Assembly. Geoffrey Boothroyd,, Peter Dewhurst and Winston Knight.
Materials
• Steel • Stainless • Aluminum • Titanium • Copper
Common Materials
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