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User-oriented Design (Fall 2011) |
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| Course code : | ME-PRJ1-U1 | ||
| ECTS Credits : | 10 | Status : | Compulsory |
| Revised : | 16/07 2010 | Written : | 26/08 2008 |
| Placement : | 1. semester | Hours per week : | 10 |
| Length : | 1 semester | Teaching Language : | English |
| Objective : | To give students knowledge and background in user-oriented design, applied to mechanical and industrial design processes, and to enable them use this knowledge to describe and assess the technology and materials used in the development of a mechanical product and produce the necessary technical drawings, as well as design new products from the acquired knowledge. To train the students in project planning, team work, communication, written and oral presentations. In addition, the project provides the students with the necessary background in mathematics and engineering statics, which is essential to all other courses of the study program. A student who has met the objectives of the course will be able to: • Be innovative in developing concepts for the industrial and technical design of a product. • Produce technical drawings, including assembly drawing, using SolidWorks. • Select the optimal materials, using the CES EduPack Materials and Processes selection software. • Describe and evaluate the design chosen, considering the two aspects of design: Technical the industrial. • Use vector and matrix algebra to solve engineering problems. • Find lengths, areas and volumes of geometrical entities, including solids of revolution. • Find centroids and moments of inertia of geometrical entities. • Apply differentiation and integration to engineering problems. • Apply statics to engineering systems. |
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| Principal Content : | The project includes concept development, problem solving, function description, materials selection, brainstorming, and technical drawings, together with design and safety calculations. Elements of engineering statics, including friction. Centroids and moments of inertia. Vector and matrix algebra. Application of differentiation and integration to engineering problems. Lengths, areas and volumes of geometrical entities, including solids of revolution. | ||
| Teaching method : | Introductory lectures in mathematics and engineering statics. Project work in small groups, including computer simulations, laboratory exercises, use of internet search engines and case studies. | ||
| Required prequisites : | None | ||
| Recommended prerequisites : | None | ||
| Relations : | ME-IND, ME-MTR, ME-CAD, ME-MAT1, ME-MEC1 | ||
| Type of examination : | Oral examination based on a project | ||
| External examiner : | Internal | ||
| Marking : | 7 step scale | ||
| Remarks : | This project is closely related to the courses in the 1st and 2nd semesters. It is primarily for students enrolled in the program “Engineering Design & Industrial Innovation”, offered by the Department of Mechanical Engineering. | ||
| Teaching material : | Lecture notes on CampusNet. | ||
| Responsible teacher : | Per Valentin Bigum
, pevbi@dtu.dk |
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