TY  - BOOK
AU  - Rivin,Eugene I.
TI  - Handbook on stiffness & damping in mechanical design
SN  - 0791802930
AV  - TA174 .R545 2010
U1  - 624.176 22
PY  - 2010///]
CY  - New York
PB  - ASME Press
KW  - Engineering design
KW  - Dynamics, Rigid
KW  - Damping (Mechanics)
N1  - Includes bibliographical references and index; 1; Introductions and Definitions --; 1.1; Basic Notions --; 1.2; Influence of Stiffness and Damping on Strength and Length of Service --; 1.3; Negative Stiffness and Damping --; 1.4; Stiffness and Damping of Some Widely Used Materials --; 1.5; General Comments on Stiffness in Mechanical Design --; 2; Modes of Loading and Stiffness of Structural Components --; 2.1; Influence of Mode of Loading on Stiffness --; 2.2; Influence of Beam Design on its Bending Stiffness and Damping --; 2.3; Torsional Stiffness --; 2.4; Influence of Stress Concentrations --; 2.5; Stiffness of Frame /Bed Components --; 2.6; General Comments on Stiffness Enhancement of Structural Components --; 2.7; Stiffness-Critical Metal Elastic Elements (Springs) --; 2.8; Static Deformation Characteristics of Quasi-Linear Rubber Elements --; 3; Nonlinear and Variable Stiffness Systems --; 3.1; Definitions --; 3.2; Embodiments of Mechanical Elements with Nonlinear Stiffness --; 3.3; Statically Nonlinear Rubber Elements --; 3.4; Stiffness Management by Preloading (Strength-to-Stiffness Transformation) --; 3.5; Assembled Frame-Like and Beam-Like Structures --; 4; Contact (Joint) Stiffness and Damping --; 4.1; Introduction --; 4.2; Contact Deformations Between Non-Conforming Surfaces --; 4.3; Contact Deformations Between Conforming and Quasi-Conforming Surfaces --; 4.4; Contact Stiffness in Structural Analysis --; 4.5; Quasi-Conforming Contact Deformations in Cylindrical /Conical Connections --; 4.6; Tangential Contact Compliance --; 4.7; Practical Case: Study of a Modular Tooling System --; 4.8; Damping of Mechanical Contacts --; 5; Supporting Systems /Foundations --; 5.1; Influence of Support Characteristics --; 5.2; Rational Location of Supporting /Mounting Elements --; 5.3; Overconstrained (Statically Indeterminate) Systems --; 5.4; Influence of Foundation on Structural Deformations --; 5.5; Deformations of Long Machine Bases --; 6; Stiffness and Damping of Power Transmission Systems and Drives --; 6.1; Basic Notions --; 6.2; Compliance of Mechanical Power Transmission and Drive Components --; 6.3; Parameter Reduction in Mathematical Models --; 6.4; Practical Examples of Structural Compliance Breakdown --; 6.5; More on Stiffness and Damping of Antifriction Bearings and Spindles --; 6.6; Damping in Power Transmission Systems --; 7; Design Techniques for Reducing Structural Deformations (Stiffness Enhancement Techniques ) --; 7.1; Structural Optimization Techniques --; 7.2; Compensation of Structural Deformations --; 7.3; Stiffness Enhancement by Reduction of Stress Concentrations --; 7.4; Strength-to-Stiffness Transformation --; 7.5; Temporary Stiffness Enhancement Techniques --; 7.6; Performance Enhancement of Cantilever Components --; 7.7; Damping Enhancement Techniques --; 8; Use of “Managed Stiffness” in Design --; 8.1; Cutting Edge /Machine Tool Structure Interface --; 8.2; Stiffness of Clamping Devices --; 8.3; Modular Tooling --; 8.4; Tool /Machine Interfaces. Tapered Connections --; 8.5; Benefits of Intentional Stiffness Reduction in Design Components --; 8.6; Constant Force (Zero Stiffness) Vibration Isolation Systems --; 8.7; Anisotropic Elastic Elements as Limited Travel Bearings (Flexures) --; 8.8; Modification of Parameters in Dynamic Models --; Appendix 1; Single- Degree-of-Freedom Dynamic Systems with Damping --; Appendix 2; Stiffness /Damping /Natural Frequency Criteria --; Appendix 3; Influence of Axial Force on Beam Vibrations --; Appendix 4; Characteristics of Elastomeric (Rubberlike) Materials --; Appendix 5; Power Transmission Couplings References --; Appendix 6; Systems with Multiple Load-Carrying Components --; Appendix 7; Compliance Breakdown for a Cylindrical (OD) Grinder
ER  -