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Design for manufacturability (also sometimes known as design for manufacturing or DFM) is the general engineering practice of designing products in such a way that they are easy to manufacture. The concept exists in almost all engineering disciplines, but the implementation differs widely depending on the manufacturing technology.
In many fields (e.g., very-large-scale integration (VLSI) and nanoelectronics) X may represent several traits or features including: manufacturability, power, variability, cost, yield, or reliability. [5] This gives rise to the terms design for manufacturability (DfM, DFM), design for inspection (DFI), design for variability (DfV), design for ...
DFMA (also sometimes rendered as DfMA) is an acronym for design for manufacture and assembly.DFMA is the combination of two methodologies; design for manufacture, which means the design for ease of manufacture of the parts that will form a product, and design for assembly, which means the design of the product for ease of assembly deriving creative ideas at the same time.
While the tools and order used in Six Sigma require a process to be in place and functioning, DFSS has the objective of determining the needs of customers and the business, and driving those needs into the product solution so created. It is used for product or process design in contrast with process improvement. [1]
Design for additive manufacturing (DfAM or DFAM) is design for manufacturability as applied to additive manufacturing (AM). It is a general type of design methods or tools whereby functional performance and/or other key product life-cycle considerations such as manufacturability, reliability, and cost can be optimized subjected to the capabilities of additive manufacturing technologies.
An extended version of this definition is as follows: "Industrial Design is a strategic problem-solving process that drives innovation, builds business success and leads to a better quality of life through innovative products, systems, services and experiences.
The method has been used in architecture, [2] healthcare, [3] product development, processes design, information technology systems, and even to create lean business models. [4] It relies on the definition and optimization of values coupled with the prevention of wastes before they enter the system. Design for lean manufacturing is system ...
Digital manufacturing is an integrated approach to manufacturing that is centered around a computer system. [1] [citation needed] The transition to digital manufacturing has become more popular with the rise in the quantity and quality of computer systems in manufacturing plants.