Verfügbarkeit: Roark's formulas for stress and strain

Roark's formulas for stress and strain:

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Bibliographische Detailangaben
Hauptverfasser:	Young, Warren C. (VerfasserIn), Budynas, Richard G. (VerfasserIn), Sadegh, Ali M. (VerfasserIn), Roark, Raymond J. (VerfasserIn)
Format:	Buch
Sprache:	German
Veröffentlicht:	New York [u.a.] McGraw-Hill 2012
Ausgabe:	8. ed.
Schlagworte:	Festigkeitslehre Festigkeit Technische Mechanik Werkstoff Spannungsanalyse Deformation Berechnung Formelsammlung
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XVIII, 1054 S. graph. Darst.
ISBN:	9780071742474

Internformat

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Datensatz im Suchindex

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adam_text	Titel: Roark s formulas for stress and strain Autor: Young, Warren C Jahr: 2012 Contents Preface to the Eighth Edition .................................. ix Preface to the First Edition .................................... xiii List of Tables ................................................ xv 1 Introduction ................................................ 1 1.1 Terminology .......................................... 1 1.2 State Properties, Units, and Conversions .................. 1 1.3 Contents ............................................. 13 1.4 References ............................................ 14 2 Stress and Strain: Important Relationships ..................... 15 2.1 Stress ................................................ 15 2.2 Strain and the Stress-Strain Relations .................... 19 2.3 Stress Transformations ................................. 22 2.4 Strain Transformations ................................. 35 2.5 Mohr s Circle ......................................... 35 2.6 Tables ................................................ 39 2.7 References ............................................ 43 3 The Behavior of Bodies under Stress .......................... 45 3.1 Methods of Loading ................................... 45 3.2 Elasticity; Proportionality of Stress and Strain ............. 46 3.3 Factors Affecting Elastic Properties...................... 47 3.4 Load Deformation Relation for a Body ................... 48 3.5 Plasticity ............................................. 48 3.6 Creep and Rupture under Long-Time Loading ............ 48 3.7 Criteria of Elastic Failure and of Rupture ................. 50 3.8 Fatigue ............................................... 54 3.9 Brittle Fracture ........................................ 58 3.10 Stress Concentration ................................... 59 3.11 Effect of Form and Scale on Strength; Rupture Factor ....... 60 3.12 Prestressing ........................................... 62 3.13 Elastic Stability ........................................ 63 3.14 Tables: Mechanical Properties of Materials ................ 64 3.15 References ............................................ 79 4 Principles and Analytical Methods ............................ 83 4.1 Equations of Motion and of Equilibrium .................. 83 4.2 Principle of Superposition .............................. 83 4.3 Principle of Reciprocal Deflections ....................... 84 4.4 Method of Consistent Deformations (Strain Compatibility) ... 84 4.5 Energy Methods ....................................... 84 iii ¡y Contents 4.6 Castigliano s Theorem ................................. 85 4.7 Dimensional Analysis .................................. 90 4.8 Remarks on the Use of Formulas ........................ 91 4.9 References ............................................ 93 5 Numerical Methods ......................................... 95 5.1 The Finite Difference Method ........................... 95 5.2 The Finite Element Method ............................. 96 5.3 The Boundary Element Method ......................... 101 5.4 Zeroes of Polynomials ................................. 107 5.5 Solution of Differential Equations ....................... 108 5.6 Numerical Integration ................................. 108 5.7 References ............................................ 110 5.8 Additional Uncited References in Finite Elements .......... 110 6 Experimental Methods ....................................... 113 6.1 Measurement Techniques ............................... 113 6.2 Electrical Resistance Strain Gages ........................ 118 6.3 Detection of Plastic Yielding ............................ 128 6.4 Analogies ............................................ 129 6.5 Wheatstone Bridge .................................... 129 6.6 Tables ................................................ 131 6.7 References ............................................ 138 7 Tension, Compression, Shear, and Combined Stress ............. 141 7.1 Bar under Axial Tension (or Compression); Common Case ___ 141 7.2 Bar under Tension (or Compression); Special Cases ........ 143 7.3 Composite Members ................................... 145 7.4 Trusses ............................................... 146 7.5 Body under Pure Shear Stress ........................... 149 7.6 Cases of Direct Shear Loading ........................... 150 7.7 Combined Stress ...................................... 151 8 Beams; Flexure of Straight Bars ............................... 155 8.1 Straight Beams (Common Case) Elastically Stressed ....... 155 8.2 Composite Beams and Bimetallic Strips .................. 165 8.3 Three-Moment Equation ............................... 168 8.4 Rigid Frames ......................................... 169 8.5 Beams on Elastic Foundations ........................... 174 8.6 Deformation Due to the Elasticity of Fixed Supports ....... 178 8.7 Beams under Simultaneous Axial and Transverse Loading ... 179 8.8 Beams of Variable Section ............................... 183 8.9 Slotted Beams ......................................... 189 8.10 Beams of Relatively Great Depth ........................ 189 8.11 Beams of Relatively Great Width ........................ 193 8.12 Beams with Wide Flanges; Shear Lag ..................... 196 8.13 Beams with Very Thin Webs ............................ 198 8.14 Beams Not Loaded in Plane of Symmetry; Flexural Center ... 199 Contents 8.15 Straight Uniform Beams (Common Case); Ultimate Strength ...................................... 200 8.16 Plastic, or Ultimate Strength, Design ..................... 204 8.17 Tables ................................................ 208 8.18 References ............................................ 292 9 Curved Beams .............................................. 295 9.1 Bending in the Plane of the Curve ....................... 295 9.2 Deflection of Curved Beams ............................ 302 9.3 Circular Rings and Arches .............................. 310 9.4 Elliptical Rings ........................................ 319 9.5 Curved Beams Loaded Normal to Plane of Curvature .................................... 320 9.6 Tables ................................................ 326 9.7 References ............................................ 399 10 Torsion ..................................................... 401 10.1 Straight Bars of Uniform Circular Section under Pure Torsion .......................................... 401 10.2 Bars of Noncircular Uniform Section under Pure Torsion .......................................... 402 10.3 Effect of End Constraint ................................ 407 10.4 Effect of Longitudinal Stresses .......................... 413 10.5 Ultimate Strength of Bars in Torsion ..................... 415 10.6 Torsion of Curved Bars; Helical Springs .................. 415 10.7 Tables ................................................ 418 10.8 References ............................................ 443 11 Flat Plates .................................................. 445 11.1 Common Case ........................................ 445 11.2 Bending of Uniform-Thickness Plates with Circular Boundaries .................................... 446 11.3 Circular-Plate Deflection Due to Shear .................... 450 11.4 Bimetallic Plates ....................................... 451 11.5 Nonuniform Loading of Circular Plates ................... 455 11.6 Circular Plates on Elastic Foundations .................... 455 11.7 Circular Plates of Variable Thickness ..................... 457 11.8 DiskSprings .......................................... 458 11.9 Narrow Ring under Distributed Torque about Its Axis ......................................... 459 11.10 Bending of Uniform-Thickness Plates with Straight Boundaries .................................... 461 11.11 Effect of Large Deflection; Diaphragm Stresses ............ 462 11.12 Plastic Analysis of Plates ............................... 466 11.13 Ultimate Strength ...................................... 466 11.14 Tables ................................................ 469 11.15 References ............................................ 544 vi Contents 12 Columns and Other Compression Members .................... 549 12.1 Columns; Common Case ............................... 549 12.2 Local Buckling ........................................ 552 12.3 Strength of Latticed Columns ........................... 558 12.4 Eccentric Loading; Initial Curvature ..................... 559 12.5 Columns under Combined Compression and Bending ..... 561 12.6 Thin Plates with Stiffeners .............................. 563 12.7 Short Prisms under Eccentric Loading .................... 565 12.8 Table ................................................. 569 12.9 References ............................................ 574 13 Shells of Revolution; Pressure Vessels; Pipes ................... 575 13.1 Circumstances and General State of Stress ................ 575 13.2 Thin Shells of Revolution under Distributed Loadings Producing Membrane Stresses Only ...................... 575 13.3 Thin Shells of Revolution under Concentrated or Discontinuous Loadings Producing Bending and Membrane Stresses .................................... 578 13.4 Thin Multielement Shells of Revolution .................. 591 13.5 Thin Shells of Revolution under External Pressure ......... 602 13.6 Thick Shells of Revolution .............................. 604 13.7 Pipe on Supports at Intervals ............................ 606 13.8 Tables ................................................ 608 13.9 References ............................................ 699 14 Bodies under Direct Bearing and Shear Stress .................. 703 14.1 Stress Due to Pressure between Elastic Bodies ............. 703 14.2 Rivets and Riveted Joints ............................... 708 14.3 Miscellaneous Cases ................................... 710 14.4 Table ................................................. 714 14.5 References ............................................ 719 15 Elastic Stability ............................................. 723 15.1 General Considerations ................................ 723 15.2 Buckling of Bars ....................................... 724 15.3 Buckling of Flat and Curved Plates ...................... 726 15.4 Buckling of Shells ..................................... 727 15.5 Tables ................................................ 730 15.6 References ............................................ 754 16 Dynamic and Temperature Stresses ............................ 759 16.1 Dynamic Loadings; General Conditions .................. 759 16.2 Body in a Known State of Motion ........................ 759 16.3 Impact and Sudden Loading ............................ 767 16.4 Impact and Sudden Loading; Approximate Formulas ...... 769 16.5 Remarks on Stress Due to Impact ........................ 771 16.6 Vibration ............................................. 771 16.7 Temperature Stresses ................................... 777 Contents yjj 16.8 Tables ................................................ 782 16.9 References ............................................ 798 17 Stress Concentration ......................................... 801 17.1 Static Stress and Strain Concentration Factors ............. 801 17.2 Stress Concentration Reduction Methods ................. 806 17.3 Tables ................................................ 809 17.4 References ............................................ 829 18 Fatigue and Fracture ......................................... 833 18.1 Fatigue in Materials .................................... 833 18.2 Fatigue Testing ........................................ 834 18.3 Fatigue and Crack Growth .............................. 835 18.4 Fracture Mechanics .................................... 835 18.5 The Stress Intensity Factor .............................. 836 18.6 Fracture Toughness .................................... 839 18.7 Crack Tip Plasticity .................................... 841 18.8 The Energy Balance Approach of Fracture ................ 842 18.9 The/Integral ......................................... 843 18.10 Tables ................................................ 845 18.11 References ............................................ 855 19 Stresses in Fasteners and Joints ............................... 857 19.1 Welding .............................................. 857 19.2 Analysis of Welded Joints ............................... 859 19.3 Strength of Welded Joints ............................... 862 19.4 Riveted and Bolted Joints ............................... 867 19.5 Shearing and Failure Modes in Riveted Joints ............. 868 19.6 Eccentric Loading of Riveted Joints ...................... 869 19.7 References ............................................ 872 20 Composite Materials ......................................... 873 20.1 Composite Materials Classifications and Components ...................................... 873 20.2 Mechanics of Composite Materials ....................... 876 20.3 Macromechanics of a Layer (Lamina) .................... 876 20.4 Micromechanics of a Layer (Lamina) ..................... 880 20.5 Failure Criterion for a Layer (Lamina) .................... 883 20.6 Macromechanics of a Laminate .......................... 886 20.7 Classical Lamination Theory ............................ 887 20.8 Macromechanics of a Laminate: Stress and Strain in a Laminate ......................................... 889 20.9 Inversion of Stiffness Equation in a Laminate .............. 895 20.10 Example of Stresses and Strains in a Laminate ............. 897 20.11 Strength and Failure Analyses of Laminate ................ 900 20.12 Tables ................................................ 905 20.13 References ............................................ 916 vili Contents 21 Solid Biomechanics .......................................... 919 21.1 Introduction .......................................... 919 21.2 Biomechanics of Bone .................................. 920 21.3 Biomechanics of Articular Cartilage ...................... 925 21.4 Biomechanics of Tendons and Ligaments ................. 926 21.5 Biomechanics of Muscles ............................... 927 21.6 Biomechanics of Joints ................................. 929 21.7 Biomechanics of the Knee ............................... 929 21.8 Biomechanics of the Hip ................................ 932 21.9 Biomechanics of the Spine .............................. 936 21.10 Biomechanics of the Lumbar Spine ...................... 936 21.11 Biomechanics of the Cervical Spine ...................... 942 21.12 Biomechanics of the Shoulder ........................... 943 21.13 Biomechanics of the Elbow ............................. 945 21.14 Human Factors in Design ............................... 946 21.15 Implants and Prostheses ................................ 946 21.16 The Knee Implants .................................... 951 21.17 Other Implants ........................................ 952 21.18 Biomaterials .......................................... 952 21.19 Tables ................................................ 956 21.20 References ............................................ 960 21.21 Glossary ............................................. 963 A Properties of a Plane Area .................................... 965 B Mathematical Formulas and Matrices .......................... 995 C Glossary ................................................... 1023 Index ...................................................... 1035
any_adam_object	1
author	Young, Warren C. Budynas, Richard G. Sadegh, Ali M. Roark, Raymond J.
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author_facet	Young, Warren C. Budynas, Richard G. Sadegh, Ali M. Roark, Raymond J.
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genre	(DE-588)4155008-0 Formelsammlung gnd-content
genre_facet	Formelsammlung
id	DE-604.BV039822804
illustrated	Illustrated
indexdate	2024-07-10T00:12:13Z
institution	BVB
isbn	9780071742474
language	German
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-024682894
oclc_num	775104655
open_access_boolean
owner	DE-92 DE-860 DE-91G DE-BY-TUM
owner_facet	DE-92 DE-860 DE-91G DE-BY-TUM
physical	XVIII, 1054 S. graph. Darst.
publishDate	2012
publishDateSearch	2012
publishDateSort	2012
publisher	McGraw-Hill
record_format	marc
spelling	Young, Warren C. Verfasser aut Roark's formulas for stress and strain Warren C. Young ; Richard G. Budynas ; Ali M. Sadegh 8. ed. New York [u.a.] McGraw-Hill 2012 XVIII, 1054 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Festigkeitslehre (DE-588)4016917-0 gnd rswk-swf Festigkeit (DE-588)4016916-9 gnd rswk-swf Technische Mechanik (DE-588)4059231-5 gnd rswk-swf Werkstoff (DE-588)4065579-9 gnd rswk-swf Spannungsanalyse (DE-588)4055995-6 gnd rswk-swf Deformation (DE-588)4070262-5 gnd rswk-swf Berechnung (DE-588)4120997-7 gnd rswk-swf (DE-588)4155008-0 Formelsammlung gnd-content Technische Mechanik (DE-588)4059231-5 s Festigkeit (DE-588)4016916-9 s Spannungsanalyse (DE-588)4055995-6 s Deformation (DE-588)4070262-5 s 1\p DE-604 Festigkeitslehre (DE-588)4016917-0 s Berechnung (DE-588)4120997-7 s 2\p DE-604 Werkstoff (DE-588)4065579-9 s 3\p DE-604 Budynas, Richard G. Verfasser aut Sadegh, Ali M. Verfasser (DE-588)1022129244 aut Roark, Raymond J. aut Formulas of stress and strain HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=024682894&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk 2\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk 3\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk
spellingShingle	Young, Warren C. Budynas, Richard G. Sadegh, Ali M. Roark, Raymond J. Roark's formulas for stress and strain Festigkeitslehre (DE-588)4016917-0 gnd Festigkeit (DE-588)4016916-9 gnd Technische Mechanik (DE-588)4059231-5 gnd Werkstoff (DE-588)4065579-9 gnd Spannungsanalyse (DE-588)4055995-6 gnd Deformation (DE-588)4070262-5 gnd Berechnung (DE-588)4120997-7 gnd
subject_GND	(DE-588)4016917-0 (DE-588)4016916-9 (DE-588)4059231-5 (DE-588)4065579-9 (DE-588)4055995-6 (DE-588)4070262-5 (DE-588)4120997-7 (DE-588)4155008-0
title	Roark's formulas for stress and strain
title_alt	Formulas of stress and strain
title_auth	Roark's formulas for stress and strain
title_exact_search	Roark's formulas for stress and strain
title_full	Roark's formulas for stress and strain Warren C. Young ; Richard G. Budynas ; Ali M. Sadegh
title_fullStr	Roark's formulas for stress and strain Warren C. Young ; Richard G. Budynas ; Ali M. Sadegh
title_full_unstemmed	Roark's formulas for stress and strain Warren C. Young ; Richard G. Budynas ; Ali M. Sadegh
title_short	Roark's formulas for stress and strain
title_sort	roark s formulas for stress and strain
topic	Festigkeitslehre (DE-588)4016917-0 gnd Festigkeit (DE-588)4016916-9 gnd Technische Mechanik (DE-588)4059231-5 gnd Werkstoff (DE-588)4065579-9 gnd Spannungsanalyse (DE-588)4055995-6 gnd Deformation (DE-588)4070262-5 gnd Berechnung (DE-588)4120997-7 gnd
topic_facet	Festigkeitslehre Festigkeit Technische Mechanik Werkstoff Spannungsanalyse Deformation Berechnung Formelsammlung
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=024682894&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT youngwarrenc roarksformulasforstressandstrain AT budynasrichardg roarksformulasforstressandstrain AT sadeghalim roarksformulasforstressandstrain AT roarkraymondj roarksformulasforstressandstrain

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