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100   $a20110511d2011      uy             0
101 0 $aeng
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200 10$aMechanics of rubber bearings for seismic and vibration isolation$b[electronic resource] /$fJames M. Kelly, Dimitrios A. Konstantinidis
210   $aChichester, U.K. ;$aHoboken, N.J. $cWiley$dc2011
215   $a1 online resource (240 p.)
300   $aDescription based upon print version of record.
311   $a1-119-99401-2 
320   $aIncludes bibliographical references and indexes.
327   $aMechanics of Rubber Bearings for Seismic and Vibration Isolation; Contents; About the Authors; Preface; 1 History of Multilayer Rubber Bearings; 2 Behavior of Multilayer Rubber Bearings under Compression; 2.1 Introduction; 2.2 Pure Compression of Bearing Pads with Incompressible Rubber; 2.2.1 Infinite Strip Pad; 2.2.2 Circular Pad; 2.2.3 Rectangular Pad (with Transition to Square or Strip); 2.2.4 Annular Pad; 2.3 Shear Stresses Produced by Compression; 2.4 Pure Compression of Single Pads with Compressible Rubber; 2.4.1 Infinite Strip Pad; 2.4.2 Circular Pad; 2.4.3 Rectangular Pad
327   $a2.4.4 Annular Pad 3 Behavior of Multilayer Rubber Bearings under Bending; 3.1 Bending Stiffness of Single Pad with Incompressible Rubber; 3.1.1 Infinite Strip Pad; 3.1.2 Circular Pad; 3.1.3 Rectangular Pad; 3.1.4 Annular Pad; 3.2 Bending Stiffness of Single Pads with Compressible Rubber; 3.2.1 Infinite Strip Pad; 3.2.2 Circular Pad; 3.2.3 Rectangular Pad; 3.2.4 Annular Pad; 4 Steel Stress in Multilayer Rubber Bearings under Compression and Bending; 4.1 Review of the Compression and Bending of a Pad; 4.2 Steel Stresses in Circular Bearings with Incompressible Rubber
327   $a4.2.1 Stress Function Solution for Pure Compression 4.2.2 Stress Function Solution for Pure Bending; 4.3 Steel Stresses in Circular Bearings with Compressible Rubber; 4.3.1 Stress Function Solution for Pure Compression; 4.3.2 Stress Function Solution for Pure Bending; 4.4 Yielding of Steel Shims under Compression; 4.4.1 Yielding of Steel Shims for the Case of Incompressible Rubber; 4.4.2 Yielding of Steel Shims for the Case of Compressible Rubber; 5 Buckling Behavior of Multilayer Rubber Isolators; 5.1 Stability Analysis of Bearings; 5.2 Stability Analysis of Annular Bearings
327   $a5.3 Influence of Vertical Load on Horizontal Stiffness 5.4 Downward Displacement of the Top of a Bearing; 5.5 A Simple Mechanical Model for Bearing Buckling; 5.5.1 Postbuckling Behavior; 5.5.2 Influence of Compressive Load on Bearing Damping Properties; 5.6 Rollout Stability; 5.7 Effect of Rubber Compressibility on Buckling; 6 Buckling of Multilayer Rubber Isolators in Tension; 6.1 Introduction; 6.2 Influence of a Tensile Vertical Load on the Horizontal Stiffness; 6.3 Vertical Displacement under Lateral Load; 6.4 Numerical Modeling of Buckling in Tension; 6.4.1 Modelling Details
327   $a6.4.2 Critical Buckling Load in Compression and Tension 7 Influence of Plate Flexibility on the Buckling Load of Multilayer Rubber Isolators; 7.1 Introduction; 7.2 Shearing Deformations of Short Beams; 7.3 Buckling of Short Beams with Warping Included; 7.4 Buckling Analysis for Bearing; 7.5 Computation of Buckling Loads; 8 Frictional Restraint on Unbonded Rubber Pads; 8.1 Introduction; 8.2 Compression of Long Strip Pad with Frictional Restraint; 8.3 The Effect of Surface Slip on the Vertical Stiffness of an Infinite Strip Pad
327   $a8.4 The Effect of Surface Slip on the Vertical Stiffness of a Circular Pad
330   $a"Mechanics of Rubber Bearings for Seismic and Vibration Isolation collates in a compact form all of the information on the mechanics of the increasingly important technology of multi-layer rubber bearings. It explores a unique & comprehensive combination of relevant topics, covering all prerequisite fundamental theory and providing a number of closed form solutions to various boundary value problems as well as a comprehensive historical overview on the use of this technique.The authors progress logically through increasingly complex analyses; many of the results presented are new and are needed for a proper understanding of these bearings and for the design and analysis of vibration isolation or seismic isolation systems. The advantages afforded by adopting these natural rubber systems"otheir cost effectiveness, simplicity, and reliability"is clearly explained to designers and users of this emerging technology, bringing into focus the design and specification of bearings for buildings, bridges and industrial structures"--$cProvided by publisher.
330   $a"Mechanics of Rubber Bearings collates in a compact form all of the information on the mechanics of the increasingly important technology of multi-layer rubber bearings"--$cProvided by publisher.
606   $aSeismic waves$xDamping
606   $aVibration
606   $aRubber bearings
615  0$aSeismic waves$xDamping.
615  0$aVibration.
615  0$aRubber bearings.
676   $a620.3/7
686   $aTEC009020$2bisacsh
700   $aKelly$b James M$043716
701   $aKonstantinidis$b Dimitrios$0990490
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910139608503321
996   $aMechanics of rubber bearings for seismic and vibration isolation$92265897
997   $aUNINA