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Basics of precision engineering [electronic resource]
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| 자료유형 | 단행본 |
|---|---|
| 서명/저자사항 | Basics of precision engineering [electronic resource]/ edited by Richard Leach & Stuart T. Smith. |
| 개인저자 | Leach, R. K, Smith, S. T.(Stuart T.), 1961-, |
| 발행사항 | Boca Raton, FL: CRC Press, Taylor & Francis Group, [2018]. |
| 형태사항 | 1 online resource (676 pages). |
| 기타형태 저록 | Print version: Leach, Richard Basics of Precision Engineering Milton : Taylor and Francis,c2018 9781498760850 |
| ISBN | 9780429887437 0429887434 |
| 일반주기 |
4.4 Effect of Damping in the System
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| 서지주기 | Includes bibliographical references and index. |
| 내용주기 | Cover; Half Title; Title Page; Copyright Page; Contents; Preface; Acknowledgements; About the Editors; About the Contributors; Chapter 1: Introduction to Precision; 1.1 Introduction; 1.2 Foundational Concepts for Precision Process Design and Evaluation; 1.2.1 Analysis Is Not Design Synthesis; 1.2.2 Design Specifications and Other Requirements; 1.2.3 Symmetry; 1.2.4 Identify and Eliminate, Where Possible, Bending Moments; 1.2.5 Loops; 1.2.6 Stiffness; 1.2.7 Compensation; 1.2.8 Null Control; 1.2.9 Error Separation; 1.2.10 Self-Correction/Calibration; 1.2.11 Kinematic Design 1.2.12 Psuedo-Kinematic Design1.2.13 Elastic Design and Elastic Averaging; 1.2.14 Plastic Design; 1.2.15 Reduction; 1.2.16 Cosine and Abbe Errors; 1.2.17 Design Inversion; 1.2.18 Energy Dissipation; 1.2.19 Test and Verify; 1.2.20 Occama?#x80;#x99;s Razor; 1.3 Performance Measures; 1.4 Development of Precision Processes; 1.4.1 Ishikawa Diagrams for Precision; 1.4.2 Introduction to Project Management and System Engineering; 1.5 Limits of Precision; References; Chapter 2: Metrology; 2.1 Introduction; 2.2 Metrology and Precision Engineering; 2.3 Metrology and Control; 2.4 Accuracy, Precision and Trueness 2.5 Measurement Basics2.6 Measurement Units and Reference Standards; 2.6.1 Unit of Length; 2.7 Physical Reference Standards; 2.8 Traceability, Verification and Uncertainty; 2.9 Metrology Institutes, Standards Bodies and Performance Test Codes; 2.10 Measurement Realisation; 2.11 Measurement System Parameters; 2.12 Summary; Exercises; References; Chapter 3: Background Principles; 3.1 Some Mathematical Preliminaries; 3.1.1 Review of Trigonometric Functions and Identities; 3.1.2 Linear Algebra; 3.1.3 Vector Algebra; 3.1.4 Cylindrical and Spherical Coordinate Systems; 3.2 Taylor Series 3.3 Fourier Series3.4 Statistics; 3.4.1 Populations and Samples; 3.4.2 Discrete and Continuous Random Variables; 3.4.3 Parameters of Random Variables; 3.4.4 Distributions; 3.4.5 Sampling Distributions; 3.4.6 Studenta?#x80;#x99;s t-Distribution; 3.4.7 I?#x87;2-Distribution; 3.4.8 F-Distribution; 3.4.9 Confidence Intervals; 3.4.10 t-Test; 3.4.11 I?#x87;2-Test; 3.4.12 F-Test; 3.5 Some Concepts from Solid Mechanics; 3.5.1 Strain; 3.5.2 Stress; 3.5.3 Hookea?#x80;#x99;s Law for Linear Elastic, Isotropic Materials; 3.5.4 Beam Theory; 3.5.5 Mohra?#x80;#x99;s Circle; 3.5.6 Hertz Contact Theory; 3.5.6.1 Contact between Two Spheres 3.5.6.2 Contact between Two Parallel Cylinders3.5.7 Tangential Loading of Two Spheres in Contact; 3.6 Optics; 3.6.1 Law of Reflection; 3.6.2 Law of Refraction (Snella?#x80;#x99;s Law); 3.6.3 Thin Lens Formula; 3.6.4 Wave Representation of Light; 3.6.5 Interference and Interferometry; 3.6.6 Diffraction; Exercises; References; Appendix; Chapter 4: Introduction to Dynamics: Implications on the Design of Precision Machines; 4.1 Introduction: A World in Motion; 4.2 Newtona?#x80;#x99;s Laws of Motion for Particles and Rigid Bodies; 4.3 A Simple Model Involving Linear and Angular Motion |
| 일반주제명 | Machine design. Tolerance (Engineering) Machine-tools. Metrology. Engineering instruments. TECHNOLOGY & ENGINEERING / Mechanical. |
| 언어 | 영어 |
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