Page 385 - Design for Six Sigma a Roadmap for Product Development
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Design for X 355
TABLE 10.1 DFX Citation Table
X DFX Reference
Product or process
Assembly Boothroyd-Dewhurst DFA O’Grady and Oh (1991)
Lucas DFA Sackett and Holbrook (1988)
Hitachi AEM Huang (1996)
Fabrication Design for Dimension Huang (1996)
Control
Hitachi MEM
Design for Manufacturing Arimoto et al. (1993)
Boothroyd et al. (1994)
Inspection and test Design for Inspectability Huang (1996)
Design for Dimensional
Control
Material logistics Design for Material Foo et al. (1990)
Logistics
Storage and Design for Storage and Huang (1996)
distribution Distribution
Recycling and Design for Ease of Beitz (1990)
disposal flexibility Recycling
Variety reduction program Suzue and Kohdate (1988)
Environmental repair Design for Navichandra (1991)
Environmentality
Design for Reliability and Gardner and Sheldon (1995)
Maintainability
Service
Cost Design for Whole Life Sheldon et al. (1990)
Costs
Service Design for Serviceability Gershenson and Ishii (1991)
Purchasing Design for Profit Mughal and Osborne (1995)
Sales and marketing Design for Marketability Zaccai (1994)
QFD This volume, Chap. 6
Use and operation Design for Safety Wang and Ruxton (1993)
Design for Human Factors Tayyari (1993)
designs sufficiently robust to achieve Six Sigma product performance
from current capability. Concurrent engineering enables this kind of
upside-down thinking. Such concepts are factored into the DFSS algo-
rithm to improve design for manufacturing, improve design for assem-
bly, and design for service. The key “design for” activities to be tackled
by the team are as follows:
