Cargando…
Milling : fundamentals, processes, and technologies /
| Clasificación: | Libro Electrónico |
|---|---|
| Otros Autores: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
New York :
Nova Publishers,
[2015]
|
| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- MILLING FUNDAMENTALS, PROCESSES AND TECHNOLOGIES ; MILLING FUNDAMENTALS, PROCESSES AND TECHNOLOGIES ; Contents; Preface; Chapter 1 Fast Evaluation of NURBS Curves and Surfaces on CNC Machines; Abstract; 1. Introduction; 2. Review of NURBS Curves; 3. Design of Fast Scheme for Evaluating NURBS Curves; 3.1. Proposed Computation Structure; 3.2. Extended Branch Structure of Basis Functions; 3.3. Moving Data Method; 4. NURBS Surfaces and Efficient Computation Scheme; 5. Simulations and Machining Tests; 5.1. Time for Evaluating a NURBS Curve Point; 5.2. NURBS Curve Interpolation Test.
- 5.3. Description of Tool Radius and Length Compensations5.4. NURBS Curve Machining Test; 5.5. NURBS Surface Machining Test; Conclusion; References; Chapter 2 Modeling the Milling Tool Wear by Using Multivariate Adaptive Regression Splines; Abstract; 1. Introduction; 2. Materials and Methods; 2.1. Experimental Dataset; 2.1.1. Data Acquisition and Processing; 2.1.2. Tool Wear; 2.2. Mathematical Model: Multivariate Adaptive Regression Spline (MARS); 2.2.1. The Importance of Variables in the MARS Model; 2.2.2. The Goodness-of-Fit; 3. Analysis of Results and Discussion; Conclusion.
- AcknowledgmentsReferences; Chapter 3 The Breakage Matrix Approach As a Tool for Describing the Milling Process: Theory, Application, Possibilities and Limitations; Abstract; Introduction; Breakage Function; Breakage Matrix Approach; Square and Triangular Breakage Matrix; Nonsquare Breakage Matrix; Breakage Matrix for Predicting the Compositional Distribution of the Milling Output; Limitations of the Breakage Matrix Approach; Breakage Matrix Methodology and Multi-Particle Interactions; Reverse Problem in the Breakage Matrix Context; Conclusion; Acknowledgments; References.
- Chapter 4 Nanocrystalline Metal Selenides: Mechanochemical Synthesis and Utilizable PropertiesAbstract; Introduction; 1. Zinc Selenide; 1.1. Conventional Mechanochemical Synthesis in Laboratory and Industrial Mill; 1.2. Non-Conventional Mechanochemical Synthesis in Laboratory Mill; Spinning rate; Powder charge; Type and number of balls; Ball-to-powder ratio (BPR); 1.3. De-aggregation Study; 1.4. Optical Properties; 2. Cadmium Selenide; 2.1. Conventional Mechanochemical Synthesis in Laboratory Mill; 2.2. Photocatalytic Properties; 3. Cobalt Selenide.
- 3.1. Conventional Mechanochemical Synthesis in Laboratory Mill4. Tin Selenide, Tin Diselenide; 4.1. Conventional Mechanochemical Synthesis in Laboratory Mill; 4.2. Optical Properties; 4.3. Electrochemical Properties; 5. Lead Selenide; 5.1. Conventional Mechanochemical Synthesis in Laboratory Mill; 5.2. Conventional Mechanochemical Synthesis in Industrial Mill; 5.3. Optical Properties; 6. Bismuth Selenides; 6.1. Conventional Mechanochemical Synthesis in Laboratory Mill; 6.2. Optical Properties; 6.3. Electrochemical Properties; Conclusion; Acknowledgments; References.