Application of Design for Manufacture and Assembly at conceptual design phase?
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Design for Manufacture and Assembly (DFMA) plays a crucial role in the conceptual design phase by optimizing product design for manufacturing and assembly processes. DFMA methods focus on evaluating product designs to ensure easy assembly and manufacturing, leading to improvements in quality, cost, and production time. Implementing DFMA involves modeling products at a functional level and determining their manufacturability early in the design process. Additionally, a multi-objective analysis method can aid in selecting optimal conceptual schemes considering various product aspects like assembly, manufacturing, and cost. This approach divides the analysis process into solution optimization and selection stages, facilitating the identification of the best conceptual solutions. By incorporating DFMA principles at the conceptual design phase, products can be developed with enhanced manufacturability and assembly efficiency, ultimately improving overall product development outcomes.
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| Papers (5) | Insight |
|---|---|
| Design for Manufacture and Assembly (DFMA) is crucial at the conceptual design phase to optimize product assembly, manufacturing, and cost simultaneously, as highlighted in the paper. | |
01 Jan 2023 | Design for Manufacture can be applied at the conceptual design phase by modeling products at the function level of abstraction and determining manufacturability early using available assets and decision-based perspective. |
| Design for Manufacture and Assembly (DFMA) is applied during the conceptual design phase to optimize product design for efficient manufacturing and assembly processes, as demonstrated in the development of a post-stroke bicycle frame. | |
01 Jul 2019 | Design for Manufacture and Assembly (DFMA) is applied at the conceptual design phase in aerospace to assess product architectures, identify critical assembly aspects, and improve manufacturing efficiency. |
09 Sep 2019 9 Citations | Design for Assembly is crucial in aircraft systems' conceptual development, enhancing product architectures. The methodology aids in evaluating and optimizing assembly processes, improving robustness and knowledge formalization in early design phases. |
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