Verfügbarkeit: Bolted joint engineering

Bolted joint engineering: fundamentals and applications

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Bibliographische Detailangaben
1. Verfasser:	Sakai, Tomotsugu (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin ; Wien ; Zürich Beuth 2008
Ausgabe:	1. ed.
Schriftenreihe:	Mechanical engineering : Training
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XI, 270 S. Ill., graph. Darst. 23 cm
ISBN:	9783410166252

Internformat

MARC


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Datensatz im Suchindex

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adam_text	DIN TOMOTSUGU SAKAI BOLTED JOINT ENGINEERING FUNDAMENTALS AND APPLICATIONS 1ST EDITION 2008 ISSUED BY: DIN DEUTSCHES INSTITUT FUR NORMUNG E. V. BEUTH VERLAG GMBH * BERLIN * WIEN * ZURICH CONTENTS CONTENTS INTRODUCTION . 1 CURRENT OVERVIEW OF BOLTED JOINTS 1 STANDARDS FOR SCREW THREAD 2 VARIOUS SCREW THREAD FASTENING PARTS 2 BOLT AND THREAD NOMENCLATURE 9 MANUFACTURING METHODS OF BOLT AND NUT 10 FASTENING TOOLS AND MACHINES 11 CHAPTER 1 FUNDAMENTAL PROCESS OF BOLTED JOINT DESIGN 17 CHAPTER 2 TROUBLE PHENOMENA OF BOLTED JOINTS 19 2.1 TROUBLES DURING TIGHTENING 19 2.2 TROUBLES AFTER TIGHTENING 20 2.3 CHARACTERISTICS AND CAUSES OF TROUBLE 21 CHAPTER 3 FUNDAMENTALS OF SCREW THREAD FASTENING 23 3.1 MECHANICS OF SCREW THREAD FASTENING 23 3.1.1 PRINCIPLE OF INCLINED PLANE 23 3.1.2 RELATION BETWEEN TIGHTENING TORQUE AND BOLT AXIAL TENSION 23 3.1.3 RELATION BETWEEN BOLT AXIAL TENSION AND ELASTIC DEFORMATION OF BOLT AND JOINED PARTS , 29 3.1.4 RELATION BETWEEN EXTERNAL LOAD ON J OINT AND LOAD ADDED TO BOLT 31 3.1.5 SPRING CONSTANT OF BOLT AND JOINED PARTS 37 3.2 TIGHTENING SCREW THREAD 44 3.2.1 BOLT YIELDING UNDER TIGHTENING 44 3.2.2 TORQUE CONTROL METHOD FOR TIGHTENING 47 3.2.3 PLASTIC REGION TIGHTENING METHOD 50 3.2.4 OTHER TIGHTENING METHODS 52 3.3 STATIC FAILURE OF BOLT 53 3.3.1 TENSILE FAILURE OF BOLT . 53 3.3.2 SHEARING FAILURE OF BOLT 53 3.4 FATIGUE FRACTURE OF BOLT 54 3.4.1 FATIGUE FRACTURE 54 3.4.2 FATIGUE FRACTURE AT THREADS 55 3.4.3 JOINT DIAGRAM WITH ECCENTRIC LOAD ACTING ON JOINT 57 3.4.4 FATIGUE LIMIT OF THREADS 57 VII CONTENTS 3.5 SCREW THREAD STRIPPING 61 3.6 DELAYED FRACTURE OF BOLT 67 3.7 SEPARATION OF JOINED PARTS 69 3.8 SLIDING OF JOINED PARTS 70 3.9 LOOSENING OF BOLT 72 3.9.1 ROTATIONAL LOOSENING 72 3.9.2 NON-ROTATIONAL LOOSENING 84 3.9.3 METHODS TO PREVENT LOOSENING 97 3.10 THREAD SPECIFICATIONS 103 3.10.1 BASIC SHAPE OF THREADS 104 3.10.2 SHAPE OF THREAD ROOT 105 3.10.3 STRESS AREA OF EXTERNAL THREADS 105 3.10.4 BEARING SURFACE AREA 106 3.10.5 MECHANICAL PROPERTIES OF BOLTS AND NUTS 106 3.10.6 UNDERHEAD RADIUS OF BOLT 108 CHAPTER 4 METHOD FOR DESIGNING BOLTED JOINTS 109 4.1 ASSESSING LOADS ACTING ON A MACHINE (A SYSTEM OR AN ASSEMBLY) 110 4.2 CALCULATING LOADS ACTING ON THE BOLTED JOINT 111 4.3 DECOMPOSING THE LOAD THAT ACTS ON THE BOLTED JOINT INTO A SHEAR LOAD COMPONENT, TENSILE LOAD COMPONENT, AND AMOUNT OF ECCENTRICITY 111 4.4 INVESTIGATION TO PREVENT VARIOUS TYPES OF PROBLEMS 111 4.4.1 INVESTIGATION CONCERNING SHEAR LOAD ILL 4.4.2 INVESTIGATION OF COUNTERING (PURE) TENSILE LOAD 116 4.4.3 INVESTIGATION OF COUNTERING AN ECCENTRIC TENSILE LOAD 118 4.5 DETERMINING THE BOLT SIZE, BOLT STRENGTH, AND TIGHTENING TORQUE 119 4.6 INVESTIGATION ON COUNTERING OVER-TIGHTENING AND STRESS CORROSION CRACKING 122 4.7 TESTS TO VERIFY THE FUNCTIONS USING A PROTOTYPE 123 CHAPTER 5 METHOD FOR EVALUATING THE RELIABILITY OF BOLTED JOINTS 125 5.1 CONDITIONS FOR SPECIMENS 125 5.2 TEST LOADS 125 5.2.1 GENERAL 125 5.2.2 MAXIMUM PROOF LOAD , : 126 5.2.3 ANTI-SLIP PROOF LOAD , 126 VIII CONTENTS 5.2.4 ANTI-LOOSENING PROOF LOAD 126 5.2.5 ANTI-SEPARATION PROOF LOAD . . 127 5.2.6 ANTI-FATIGUE PROOF LOAD 127 5.2.7 TEMPERATURE 127 5.3 HINTS FOR FAILURE ANALYSIS 127 5.3.1 WHETHER IT HAS BEEN TIGHTENED OR NOT : 127 5.3.2 CAUSES OF BOLT FAILURE 128 5.3.3 PRESENCE OF LOOSENING AND INVESTIGATING ITS CAUSE 128 5.4 CHARACTERISTICS OF MALFUNCTIONS 13 6 5.4.1 ROTATIONAL LOOSENING SUBJECTED TO A SHEAR LOAD 136 5.4.2 FATIGUE FRACTURE OF A BOLT SUBJECTED TO A TENSILE LOAD 136 5.4.3 LOOSENING DUE TO CREEP (STRESS RELAXATION) 136 5.5 LOOSENING MEASUREMENT METHODS 137 5.5.1 RESIDUAL TORQUE MEASUREMENT METHOD 137 5.5.2 LOOSENING ANGLE MEASUREMENT METHOD FOR BOLTS AND NUTS 139 5.5.3 METHOD FOR MEASURING THE LIFT OF THE SPRING WASHER 140 5.5.4 METHOD FOR CHECKING THE PRESENCE OF ROTATION AND SLIP 140 5.5.5 METHOD FOR MEASURING RESIDUAL AXIAL TENSION : 141 5.6 METHOD FOR MEASURING AXIAL TENSION 141 5.6.1 METHOD USING AN ULTRASONIC AXIAL TENSION GAUGE 141 5.6.2 METHOD USING A BOLT WITH STRAIN GAUGES AFFIXED TO IT 144 5.6.3 METHOD USING A LOAD CELL 146 5.7 METHOD FOR MEASURING THE FRICTION COEFFICIENT OF FASTENING PARTS 147 5.7.1 SPECIMENS 147 5.7.2 MEASUREMENT DEVICE 147 5.7.3 TIGHTENING SPEED 148 5.7.4 CALCULATION OF THE THREAD SURFACE FRICTION COEFFICIENT, THE BEARING SURFACE FRICTION COEFFICIENT, AND THE INTEGRATED FRICTION COEFFICIENT 149 CHAPTER 6 METHOD FOR INSPECTING BOLTED JOINTS 151 6.1 RELATIONSHIP BETWEEN TIGHTENING TORQUE AND INSPECTION TORQUE 151 6.2 INSPECTION BY TIGHTENING TORQUE 151 6.3 MONITORING AND RECORDING OF TIGHTENING TORQUE 152 6.4 INSPECTION BY AXIAL TENSION 152 CONTENTS CHAPTER 7 HOW TO USE VARIOUS TYPES OF FASTENING PARTS 155 7.1 WASHERS 155 7.1.1 THE BEARING SURFACE FUNCTIONS OF WASHERS 156 7.1.2 THE SPACER FUNCTIONS OF WASHERS 156 7.1.3 SPRING FUNCTIONS OF SPRING WASHERS 157 7.1.4 NECESSITY OF WASHERS 159 7.2 STUD BOLT 160 7.3 TAPPING SCREWS 161 7.4 DETENT PARTS 162 7.4.1 THREAD RESISTANCE TYPE DETENTS 163 7.4.2 MECHANICAL DETENTS 165 7.4.3 BEARING SURFACE RESISTANCE TYPE DETENTS 166 7.4.4 ADHESIVE 166 7.4.5 HOW TO EVALUATE THE PERFORMANCE OF DETENT PARTS 166 7.5 DOUBLE NUTTING 169 7.6 COARSE THREADS AND FINE PITCH THREADS 170 7.7 BEARING SURFACE ANGLE 170 CHAPTER 8 EXAMPLES OF SCREW THREAD DESIGN CALCULATIONS 173 8.1 A JOINT THAT IS SUBJECTED TO A SHEAR LOAD: A JOINT BETWEEN A CRANKSHAFT AND A FLYWHEEL 173 8.2 JOINED PARTS SUBJECTED TO A TORSIONAL LOAD: JOINT BETWEEN THE CRANKSHAFT AND THE CRANK PULLEY 180 8.3 A JOINT UNDER AN ECCENTRIC TENSILE LOAD: A JOINT BETWEEN A CONNECTING ROD AND A CONNECTING ROD CAP 190 8.4 A JOINT UNDER INERTIAL FORCE: MOUNTED WITH A COMPUTER 197 8.5 A JOINT UNDER A LARGE, SINGLE-SHOT LOAD: MOUNTED WITH A SEAT BELT SHOULDER ANCHOR 202 8.6 A JOINT OF A FUNCTIONAL ELECTRIC PART: TO MOUNT AN ELECTRIC WINDOW GLASS REGULATOR 209 8.7 A JOINT EXPOSED TO HIGH TEMPERATURES: BETWEEN EXHAUST MANIFOLD AND EXHAUST PIPE 214 CALCULATION EXERCISES TO FURTHER UNDERSTAND THREADED FASTENERS 221 ATTACHED DIAGRAMS AND TABLES 237 ATTACHED DIAGRAMS 1 TO 6: TFPT-OY DIAGRAM OF HEX HEAD BEARING SURFACE AND COARSE THREADS CONTENTS ATTACHED DIAGRAMS 7 TO 12: T-F-FI-OY DIAGRAM OF ROUND HEAD BEARING SURFACE AND FINE PITCH THREADS ATTACHED DIAGRAMS 13 TO 18: T-F-PT-O Y DIAGRAM OF SMALL HEX HEAD BEARING SURFACE AND FINE PITCH THREADS APPENDIX 1: TABLE OF THREAD PITCH DIAMETERS, ROOT DIAMETERS, STRESS AREAS, AND ROOT CROSS-SECTIONAL AREAS APPENDIX 2: MINIMUM YIELD LOADS DURING UNIAXIAL TENSILE TESTING OF EXTERNAL THREAD PARTS (COARSE AND FINE PITCH THREADS) APPENDIX 3: CRITICAL SURFACE PRESSURES OF MATERIALS APPENDIX 4: TABLE OF RATIOS BETWEEN BEARING SURFACE AREAS AND STRESS AREAS APPENDIX 5: EQUIVALENT FRICTION DIAMETERS OF BEARING SURFACES APPENDIX 6: FRICTION COEFFICIENTS OF CONTACT SURFACES APPENDIX 7: THERMAL EXPANSION COEFFICIENTS, MODULUS OF ELASTICITY, AND MODULUS OF RIGIDITY OF VARIOUS MATERIALS APPENDIX 8: RECOMMENDED CRITICAL ENGAGEMENT LENGTH VALUES OF THREADS APPENDIX 9: ROUGH ESTIMATION OF STRENGTH VALUES OF STEEL MATERIALS (SMOOTH SPECIMEN) OBTAINED FROM VICKERS HARDNESS VALUES LIST OF SYMBOLS 259 BIBLIOGRAPHY 262 SUBJECT INDEX 265
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author	Sakai, Tomotsugu
author_facet	Sakai, Tomotsugu
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discipline	Maschinenbau / Maschinenwesen
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physical	XI, 270 S. Ill., graph. Darst. 23 cm
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spelling	Sakai, Tomotsugu Verfasser aut Bolted joint engineering fundamentals and applications Tomotsugu Sakai. Issued by: DIN Deutsches Institut für Normung e.V. 1. ed. Berlin ; Wien ; Zürich Beuth 2008 XI, 270 S. Ill., graph. Darst. 23 cm txt rdacontent n rdamedia nc rdacarrier Mechanical engineering : Training HEBIS Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=018592366&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Sakai, Tomotsugu Bolted joint engineering fundamentals and applications
title	Bolted joint engineering fundamentals and applications
title_auth	Bolted joint engineering fundamentals and applications
title_exact_search	Bolted joint engineering fundamentals and applications
title_full	Bolted joint engineering fundamentals and applications Tomotsugu Sakai. Issued by: DIN Deutsches Institut für Normung e.V.
title_fullStr	Bolted joint engineering fundamentals and applications Tomotsugu Sakai. Issued by: DIN Deutsches Institut für Normung e.V.
title_full_unstemmed	Bolted joint engineering fundamentals and applications Tomotsugu Sakai. Issued by: DIN Deutsches Institut für Normung e.V.
title_short	Bolted joint engineering
title_sort	bolted joint engineering fundamentals and applications
title_sub	fundamentals and applications
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=018592366&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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