DESIGN FOR MANUFACTURING (DFM) DESIGN FOR ASSEMBLY (DFA)

DESIGN FOR MANUFACTURING (DFM) DESIGN FOR ASSEMBLY (DFA)

… but, correct decisions require knowledge of manufacturing process
Casting ? Stamping ? … but, correct decisions require knowledge of manufacturing process

DECISIONS AGAIN; HOW TO MANUFACTURE A FORK?
[Andreasen 1988]

DESIGNERS’ KNOWLEDGE OF MANUFACTURING PROCESSES
[Boothroyd et al 1994]

DESIGNERS’ KNOWLEDGE OF MANUFACTURING PROCESSES
Some of manufacturing processes for plastic products: GRP - glass reinforced plastics SMC - Sheet Molding BMC - Bulk Molding LFT - Long Fiber Thermoplastic Molding GMT - Glass Mat Thermoplastic Molding Thermoforming HIP - Hot Isostatic Pressing …. + vast number of other technologies

EXAMPLES OF SOME “EXOTIC” MANUFACTURING PROCESSES
Loading: The blank is loaded in the form die. The hot press heats the die and the blank to the material super-plastic temperature. Forming: Once the temperature is reached, it is accurately controlled, while the gas pressure slowly inflate the blank. Forming: The gas keeps inflating the part to fit the die. The material at the super-plastic temperature can allow up to 500% elongation Release: At the end of the forming cycle, the part perfectly conforms with the die, even in its smallest details. SUPERPLASTIC FORMING This method consists in hot forming up to 1000° Celsius superplastic alloys by using an inert gas pressured up to 50 bars. Combined with diffusion bonding, this process allows honeycomb structures made of several sheets in a single operation.

Thixomolding® is the injection molding of thixotropic metal alloys (magnesium to date) in a semi-solid or plastic-like state. The process takes place in a specially designed machine resembling a plastic injection-molding machine. Click here to see the schematic of a Thixomolding® machine.

Spinning Shear molding Flow molding Process classification

Metal spinning Note that “exotic” does not necessarily mean “new”, it may be just forgotten.

DIRECT LABOR COSTS – UNITED STATES
Process Processing Cost ($/hr in 1998 dollars) Injection Molding T (where T is the tonnage of the machine) Die casting 30.00 Machining 50.00 Powder Metal Sheet Metal 30.00 Manual Assembly 30.00 Electrical work (assembly, PCB) 30.00 Finishing (paint, labeling) 30.00

SHAPES AND COMMON METHODS OF PRODUCTION
[Boothroyd et al 1994]

MANUFACTURING PROCESSES WE REVIEW IN MME2259a
DESIGN FOR MANUFACTURING (DFM) 1. Machining - is the process of removing or separating pieces of material from a workpiece (i.e. material removal). 2. Forming - is the process of giving shape to a workpiece without adding material to, or removing material from, the workpiece (i.e. material deformation, casting, and injection molding). Joining - is the process of fastening workpieces together, permanently or semi-permanently. Finishing - is the process of modifying a workpiece surface for the purposes of protection and/or appearance (i.e. surface treatment).

1. MACHINING PROCESS - SAWING
TYPE DESCRIPTION EXAMPLES

1. MACHINING PROCESS - SHEARING

1. MACHINING PROCESS - MILLING

1. MACHINING PROCESS - TURNING

1. MACHINING PROCESS - DRILLING

TYPE DESCRIPTION EXAMPLES
[Lindbeck 1995] 1. MACHINING PROCESS - SHAPING TYPE DESCRIPTION EXAMPLES

1. MACHINING PROCESS ABRADING

1. MACHINING PROCESS ELECTRO - CHEMICAL

2. FORMING PROCESS - DRAWING

2. FORMING PROCESS - WIRE DRAWING

2. FORMING PROCESS CHART - BENDING TYPE DESCRIPTION EXAMPLES WORK PIECE

2. FORMING PROCESS CHART FORGING TYPE DESCRIPTION EXAMPLES Hot or cold

2. FORMING PROCESS - CASTING

2. FORMING PROCESS - ROLLING

2. FORMING PROCESS - EXTRUDING

3. JOINING AND FASTENING - MECHANICAL

3. JOINING AND FASTENING - ADHESIVE

3. JOINING AND FASTENING - COHESIVE

4. FINISHING PROCESS - MECHANICAL

4. FINISHING PROCESS - COLORING

4. FINISHING PROCESS COATING

Manufacturing Aluminum Cans
[Lindbeck 1995]

DESIGN GUIDELINES FOR MACHINING
Allow for run-out for tool [Boothroyd et al 1994]

Avoid completely spherical surfaces

Use rectilinear shapes Use co-planar surfaces Minimize machined areas Break-up large surfaces

DON’T DO Poor design (no thread run-out) Thread run-out

DON’T DO Provide boss to avoid drilling into an inclined surface [Boothroyd et al 1994]

DON’T DO Do not design very difficult (or impossible) to machine hollows or overhangs

DON’T DO R = 0 impossible Design for reasonable internal pockets radii

Φ = 10.57mm Φ = 10 mm DESIGN GUIDELINES FOR MACHINING
DON’T DO Φ = 10.57mm Φ = 10 mm Use standard dimensions

DON’T Avoid long narrow holes

DON’T DO Avoid thin wall, they break when machining

DON’T DO Place holes away from edges

DON’T DO Provide access for tools

DON’T Avoid deep pockets that require long tools and cause tool vibration

DON’T Difficult to hold DO Easy to hold Design parts that are easy to fixture (hold)

DON’T Avoid long thin sections that cause vibration when machined

DON’T DO Remember that holes can’t change directions

DON’T DO Avoid external rounds which are difficult to machine, use chamfers instead

DESIGN FOR MANUFACTURING (DFM) DESIGN FOR ASSEMBLY (DFA)

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