Product Design And Development Karl T Ulrich And Steven D Eppinger !EXCLUSIVE!
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Once the design was structured, a Quality Function Deployment was performed. The Quality Function Deployment looked at the four phases in the product development process. These four phases are: (1) Specification, (2) Conceptual Design, (3) Detailed Design, and (4) Construction or Manufacturing. Each phase was then broken into smaller sub-phases: (1a) Needs Analysis, (1b) Solution Analysis, (2a) Specification, (2b) Conceptual Design, (3a) Detailed Design, and (3b) Manufacturing. The Quality Function Deployment allowed for the creation of an actual design that could be constructed and evaluated by a third party for its ability to meet the customer needs. This design was based directly on the needs and specifications identified by the university customer. The process was performed using a tool in the form of a computerized spreadsheet that allowed for the creation of the design as well as assessments of the design based on customer needs. The requirements were as follows: (a) The device should be safe, (b) The device should be reliable, (c) The device should be easy to load, (d) The device should maintain the interest of the students, (e) The device should crush cans, and (f) The device should be manufacturable by the staff at Rosedale.
In order to find a way to produce the device, a detailed design was generated. This design was used as a guideline to create the detailed design. The first step was to create the necessary components for each design. At this point, the design was constrained by the need to fit within the limitations of the existing manufacturing process. This was accomplished by creating a modified axonometric view of the device that allowed the design to be partitioned and constrained by a rectangle. This allowed the design to be reduced to a 2-D representation. The resulting design then had the functionality of crushing cans and delivering them to a hopper. Once the design had been created, the parts were generated. The parts were designed to fit within the constraints of the manufacturing process. Each part had to be manufacturable and meet safety and reliability standards. To accomplish this, the parts were designed in a way that allowed for easy assembly. The parts were also designed to be as simple as possible to reduce the possibility of jamming.
He has also been an industry consultant to firms such as 3M, Procter & Gamble, Philips, and 3DPrint and has worked as a product development executive at 3M and for the Department of the Navy. Eppinger has a BS in civil engineering from the University of Washington and an MS and PhD in engineering design from MIT.
The design structure process can be used to build a best-of-breed product set, in the sense that the product set is built to satisfy the needs of the customer given the constraints of the process.
After determining the most important features, a set of design principles were used to develop a set of solutions. The purpose of the principles is to constrain the design so that it can be built in a repeatable and predictable manner. This is important because the manufacture of the product must be able to produce it reliably on a large scale. This can only be done if the design is repeatable. 827ec27edc