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Applied Mechanical Design : Solved Case Studies and Projects.
| Clasificación: | Libro Electrónico |
|---|---|
| Autor principal: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Somerset :
John Wiley & Sons, Incorporated,
2018.
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| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Cover; Half-Title Page; Title Page; Copyright Page; Contents; Preface; Introduction; 1. Case Study-based Design Methodology; 1.1. Methodology for designing a project product; 1.2. Main players involved in the design process; 1.3. Conceptualization and creativity; 1.4. Functional analysis in design: the FAST method; 1.4.1. Decision-support tools in design; 1.5. Functional specifications (FS); 1.5.1. Operational functions, using the APTE method or octopus diagram; 1.5.2. Linguistic (or syntactical) writing of the functional specifications; 1.6. Failure Mode Effects and Criticality Analysis.
- 1.7. PERT method1.7.1. Logic of construction of the graph per level of operations; 1.7.2. Statistical approach to the PERT diagram using the Gamma distribution; 1.8. The Gantt method (Henry Ganttâ#x80;#x99;s graph, devised 1910); 1.9. Principal functions of a product; 1.10. Functional analysis in mechanical design; 1.10.1. Product cost in mechanical design; 1.10.2. Creation- and monitoring sheets in mechanical design; 1.11. Scientific writing on a project; 1.11.1. Project process; 1.11.2. Development of the conceptual model; 1.11.3. Development (recap) on a spiral model.
- 1.12. Esthetics of materials in mechanical design1.13. Conclusion; 2. Materials and Geometry in Applied Mechanical Design, Followed by Case Studies; 2.1. Introduction to materials in design; 2.2. Optimization of mass in mechanical design; 2.3. Case study of modeling based on the materialâ#x80;#x93;geometry couple; 2.4. Geometry by standard sections in strength of materials; 2.4.1. Choice of materials in design (airplanes and bikes); 2.4.2. Form factors Î ̈of some usual cross-sections; 2.4.3. Form factors in mechanical design [ROA 75]; 2.5. Case study of design of multi-purpose items.
- 2.6. Case study of superposed bimetallic materials [ROA 75]2.7. Curving and incurvate elements by sweeping of sheet metals; 2.7.1. Sensible choice of optimizing materials in Palmer micrometers; 2.8. Conclusion; 3. Geometrical Specification of GPS and ISO Products: Case Studies of Hertzian Contacts; 3.1. Introduction; 3.2. Dimensional and geometrical tolerances in design; 3.2.1. Case study of a bicycle wheel hub; 3.3. Envelopes and cylinders under pressure (for R/e <20); 3.4. Case study; 3.5. Rotating cylinders with a full round cross-section: flywheel.
- 3.5.1. Materials used for flywheels with centrifugal effects3.6. Press fit and thermal effects through bracing; 3.7. Case study applied to bolted tanks; 3.8. Case studies applied to contact stresses (Hertz) in design; 3.8.1. First case: sphere-to-sphere contact; 3.8.2. Second case: contact between two parallel cylinders; 3.9. Conclusion; 4. Design of Incurvate Geometries by Sweeping; 4.1. Introduction; 4.2. Case studies; 4.2.1. Case study 1: frame sweeping; 4.2.2. Case study 2: frame sweeping; 4.2.3. Case study 3: frame sweeping; 4.2.4. Case study 4: frame sweeping.