Geometric Tolerancing of Products.
This title describes the various research results in the field of geometric tolerancing of products, an activity that highlights the difficult scientific locks. The collection is of great importance for further innovation in the development of industrial products.
Clasificación: | Libro Electrónico |
---|---|
Autor principal: | |
Otros Autores: | |
Formato: | Electrónico eBook |
Idioma: | Inglés |
Publicado: |
London :
Wiley,
2013.
|
Colección: | ISTE.
|
Temas: | |
Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Cover; Title Page; Copyright Page; Table of Contents; PART I. GEOMETRIC TOLERANCING ISSUES; Chapter 1. Current and Future Issues in Tolerancing: the GD & T French Research Group (TRG) Contribution; 1.1. Introduction; 1.2. Presentation of the Tolerancing Research Group: objectives and function; 1.3. Synthesis of the approach and contributions of the group; 1.3.1. Languages for geometric specification; 1.3.2. Dimension chains in 3D; 1.3.3. Methods and tools; 1.3.4. Manufacturing dimensioning and tolerancing; 1.3.5. Uncertainties and metrology; 1.4. Research perspectives.
- 1.5. Media examples: "centering" and "connecting rod-crank"1.6. Conclusion; 1.7. Bibliography; PART II. GEOMETRIC TOLERANCING LANGUAGES; Chapter 2. Language of Tolerancing: GeoSpelling; 2.1. Introduction; 2.2. Concept of the GeoSpelling language; 2.3. Geometric features; 2.3.1. Ideal features; 2.3.2. Non-ideal features; 2.3.3. Limited features; 2.4. Characteristic; 2.4.1. Intrinsic characteristic; 2.4.2. Situation characteristic; 2.4.3. Situation characteristic between ideal features; 2.4.4. Situation characteristic between limited and ideal features.
- 2.4.5. Situation characteristic between non-ideal and ideal features2.4.6. Situation characteristic between non-ideal features; 2.5. Operations; 2.5.1. Operations to identify the geometric features; 2.5.2. Evaluation operation; 2.6. Conditions; 2.7. Specifications on assemblies
- quantifiers; 2.8. Applications to part specification; 2.9. Applications to product specifications; 2.10. Conclusion; 2.11. Bibliography; Chapter 3. Product Model for Tolerancing; 3.1. Introduction; 3.2. Objectives and stakes; 3.2.1. Cover the design cycle of the product.
- 3.2.2. Propose an environment of collaborative work3.2.3. Ensure the traceability of geometric specifications; 3.3. Proposal for a product model; 3.3.1. History; 3.3.2. General description of the IPPOP product model; 3.3.3. Basic entities definition of the product model; 3.3.4. Description of the connection links between basic entities; 3.3.5. Description of the decomposition and aggregation of basic entities; 3.3.6. Correspondence between tolerancing data and product model data; 3.4. Benefits of the IPPOP product model; 3.4.1. Description of the transfer principle.
- 3.4.2. Formalization of the geometric condition transfer activity3.4.3. Traceability of specifications; 3.5. Application on the centering device; 3.5.1. Description of the case studied; 3.5.2. Functional analysis of the centering device; 3.5.3. Transfer in preliminary design (stage 1); 3.5.4. Transfers in embodiment design (stages 2 and 3); 3.5.5. Transfer in detailed design (stage 4); 3.5.6. Traceability of specifications of axis 3; 3.6. Conclusion; 3.7. Bibliography; Chapter 4. Representation of Mechanical Assemblies and Specifications by Graphs; 4.1. Introduction.