Preface |
Terminology and Abbreviations |
Nomenclature |
Conversion Table |
Engineering Guides of Modular Design and Description Methodology of Machine Tools / Part 1: |
Basic Knowledge: What Is the Modular Design? / Chapter 1: |
Definition and Overall View of Modular Design / 1.1: |
Advantageous and Disadvantageous Aspects of Modular Design / 1.2: |
A Firsthand View of Developing History and Representative Applications / 1.3: |
Application to TL and FTL / 1.3.1: |
Application to conventional machine tools / 1.3.2: |
Application to NC machine tools / 1.3.3: |
Different-kind generating modular design / 1.3.4: |
References |
Engineering Guides and Future Perspectives of Modular Design / Chapter 2: |
Four Principles and Further Related Subjects / 2.1: |
Effective Tools and Methodology for Modular Design / 2.2: |
Classification of Modular Design Including Future Perspectives / 2.3: |
Modular design being widely employed / 2.3.1: |
Modular design in the very near future-a symptom of upheaval of new concepts / 2.3.2: |
Characteristic Features of Modular Design Being Used in Machine Tools of the Most Advanced Type / 2.4: |
System machines / 2.4.1: |
Machining complex and processing complex / 2.4.2: |
Description of Machine Tools / Chapter 3: |
Basic Knowledge about Functional and Structural Description Methods / 3.1: |
Details of Functional Description / 3.2: |
Details of Structural Description / 3.3: |
Application of Machine Tool Description to Engineering Design / Chapter 4: |
Application of Functional Description / 4.1: |
Classification of machining centers and its application to marketability analysis / 4.1.1: |
Analysis of machining function and its application to evaluate compatibility with production systems / 4.1.2: |
Automated generation of concept drawing / 4.1.3: |
Estimation of assembly accuracy in design stage / 4.1.4: |
Application of Structural Description / 4.2: |
Similarity evaluation of structural configuration-availability constraints of modular design / 4.2.1: |
Variant design for structural configuration / 4.2.2: |
Free design for structural configuration / 4.2.3: |
Engineering Design for Machine Tool Joints-Interfacial Structural Configuration in Modular Design / Part 2: |
Basic Knowledge of Machine Tool Joints / Chapter 5: |
Classification of Machine Tool Joints / 5.1: |
Definition of Machine Tool Joint and Representation of Joint Characteristics / 5.2: |
External Applied Loads to Be Considered and Fundamental Factors Governing Joint Characteristics / 5.3: |
Effects of Joint on Static and Dynamic Stiffness, and Thermal Behavior of Machine Tool as a Whole / 5.4: |
Firsthand View of Research History / 5.5: |
Fundamentals of Engineering Design and Characteristics of the Single Flat Joint / Chapter 6: |
Quick Notes for Single Flat Joint, Determination of Mathematical Model, and Fundamental Knowledge about Engineering Design Formulas / 6.1: |
Design Formulas for Normal Joint Stiffness and Related Research / 6.2: |
Expressions for static normal joint stiffness / 6.2.1: |
Representative researches into behavior of the single flat joint under normal loading / 6.2.2: |
Design Formulas for Tangential Joint Stiffness, Related Researches, and Peculiar Behavior of Microslip / 6.3: |
Expressions for static tangential joint stiffness / 6.3.1: |
Representative researches into behavior of the static tangential joint stiffness and the microslip / 6.3.2: |
Peculiar behavior of microslip / 6.3.3: |
Design Formulas for Damping Capacity and Related Researches / 6.4: |
Expressions for damping capacity / 6.4.1: |
Representative research into dynamic behavior / 6.4.2: |
Thermal Behavior of Single Flat Joint / 6.5: |
Forerunning Research into Single Flat Joint with Local Deformation / 6.6: |
Supplement: Theoretical Proof of Ostrovskii's Expression |
Design Guides, Practices, and Firsthand View of Engineering Developments-Stationary Joints / Chapter 7: |
Bolted Joint / 7.1: |
Design guides and knowledge-pressure cone and reinforcement remedies from structural configuration / 7.1.1: |
Engineering design for practices-suitable configuration of bolt pocket and arrangement of connecting bolts / 7.1.2: |
Engineering calculation for damping capacity / 7.1.3: |
Representative researches and their noteworthy achievements-static behavior / 7.1.4: |
Representative researches and their noteworthy achievements-dynamic behavior / 7.1.5: |
Representative researches and their noteworthy achievements-thermal behavior / 7.1.6: |
Foundation / 7.2: |
Engineering calculation for foundation / 7.2.1: |
Stiffness of leveling block / 7.2.2: |
Firsthand View for Researches in Engineering Design in Consideration of Joints / Supplement 1: |
Influences of Joints on Positioning and Assembly Accuracy / Supplement 2: |
Supplement References |
Design Guides, Practices, and Firsthand View of Engineering Developments-Sliding Joints / Chapter 8: |
Slideways / 8.1: |
Design knowledge-slideway materials / 8.1.1: |
Design knowledge-keep plate and gib configurations / 8.1.2: |
Linear Rolling Guideways (Linear Guide and Rolling Guideways) / 8.2: |
Main Spindle-Bearing Systems / 8.3: |
Static stiffness of rolling bearing / 8.3.1: |
Dynamic stiffness and damping capacity of rolling bearing / 8.3.2: |
Sliding Joints of Special Types / 8.4: |
Screw-and-nut feed driving systems / 8.4.1: |
Boring spindle of traveling type / 8.4.2: |
Supplement: Deflection and Interface Pressure Distribution of Slideway |
Supplement Reference |
Rudimentary Engineering Knowledge about Other Joints / Chapter 9: |
Joints for Light-Weighted Structures / 9.1: |
Welded joint / 9.1.1: |
Bonded joint / 9.1.2: |
Taper Connection / 9.2: |
Chucking / 9.3: |
Measurement of Interface Pressure by Means of Ultrasonic Waves / Appendix 1: |
Principle of Measurement and Its Verification / A1.1: |
Some Applications and Perspectives in the Very Near Future / A1.2: |
Model Testing and Theory / Appendix 2: |
Model Testing and Theory for Structural Body Component / A2.1: |
Model Testing in Consideration of Joints / A2.2: |
Index |
Preface |
Terminology and Abbreviations |
Nomenclature |