Engineering with rubber: how to design rubber components
Gespeichert in:
| Format: | Buch |
|---|---|
| Sprache: | English |
| Veröffentlicht: |
Munich
Hanser
2012
|
| Ausgabe: | 3. ed. |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XVIII, 433 S. Ill., graph. Darst. 25 cm |
| ISBN: | 9783446427648 9781569905081 |
Internformat
MARC
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Datensatz im Suchindex
| DE-BY-862_location | 2000 |
|---|---|
| DE-BY-863_location | 1000 |
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| DE-BY-FWS_katkey | 430585 |
| DE-BY-FWS_media_number | 083101222487 083000505521 |
| _version_ | 1806176362005790720 |
| adam_text | IMAGE 1
CONTENTS
PREFACE TO THIRD EDITION XV
AUTHORS XVII
1 INTRODUCTION 1
1.1 RUBBER IN ENGINEERING 1
1.2 ELASTOMERS 2
1.3 DYNAMIC APPLICATION 3
1.4 GENERAL DESIGN PRINCIPLES 3
1.5 THERMAL EXPANSIVITY, PRESSURE, A N D SWELLING 4
1.6 SPECIFIC APPLICATIONS A N D OPERATING PRINCIPLES 5
1.7 SEAL LIFE 8
1.8 SEAL FRICTION 8
ACKNOWLEDGMENTS 9
REFERENCES 9
2 MATERIALS AND COMPOUNDS 11
2.1 INTRODUCTION 11
2.2 ELASTOMER TYPES 12
2.2.1 GENERAL P U R P O S E 12
2.2.1.1 STYRENE-BUTADIENE R U B B E R (SBR) 12
2.2.1.2 POLYISOPRENE (NR, IR) 13
2.2.1.3 POLYBUTADIENE (BR) 14
2.2.2 SPECIALTY ELASTOMERS 14
2.2.2.1 POLYCHLOROPRENE (CR) 14
2.2.2.2 ACRYLONITRILE-BUTADIENE R U B B E R (NBR) 15
2.2.2.3 HYDROGENATED NITRILE RUBBER (HNBR) 15
2.2.2.4 BUTYL RUBBER (IIR) 15
2.2.2.5 ETHYLENE-PROPYLENE RUBBER (EPR, EPDM) 15
2.2.2.6 SILICONE RUBBER (MQ, VMQ, PMQ, PVMQ) 16
2.2.2.7 POLYSULFIDE RUBBER (T) 16
2.2.2.8 CHLOROSULFONATED POLYETHYLENE (CSM) 16
HTTP://D-NB.INFO/1017776482
IMAGE 2
2.2.2.9 CHLORINATED POLYETHYLENE (CM) 16
2.2.2.10 ETHYLENE-METHYL ACRYLATE RUBBER (AEM) 17
2.2.2.11 ACRYLIC RUBBER (ACM) 17
2.2.2.12 FLUOROCARBON RUBBERS 17
2.2.2.13 EPICHLOROHYDRIN RUBBER (CO, ECO) 17
2.2.2.14 URETHANE RUBBER 17
2.3 COMPOUNDING 18
2.3.1 VULCANIZATION A N D CURING 18
2.3.1.1 SULFUR CURING 18
2.3.1.2 DETERMINATION OF CROSSLINK DENSITY 21
2.3.1.3 INFLUENCE OF CROSSLINK DENSITY 22
2.3.1.4 OTHER CURE SYSTEMS 2 3
2.3.2 REINFORCEMENT 2 3
2.3.3 ANTI-DEGRADANTS 2 5
2.3.3.1 OZONE ATTACK 2 6
2.3.3.2 OXIDATION 2 6
2.3.4 PROCESS AIDS 2 8
2.3.5 EXTENDERS 2 9
2.3.6 TACKIFIERS 2 9
2.4 TYPICAL RUBBER COMPOSITIONS 3 0
ACKNOWLEDGMENT 3 4
REFERENCES 3 4
PROBLEMS FOR CHAPTER 2 3 5
ANSWERS TO PROBLEMS FOR CHAPTER 2 3 5
3 ELASTICITY 3 7
3.1 INTRODUCTION 3 7
3.2 ELASTIC PROPERTIES A T SMALL STRAINS 3 8
3.2.1 ELASTIC CONSTANTS 3 8
3.2.2 RELATION BETWEEN S H E A R MODULUS G A N D COMPOSITION 4 1
3.2.3 STIFFNESS OF COMPONENTS 4 4
3.2.3.1 CHOICE OF S H E A R MODULUS 4 4
3.2.3.2 S H E A R DEFORMATIONS OF BONDED BLOCKS A N D HOLLOW CYLINDRICAL
TUBES 4 5
3.2.3.3 SMALL COMPRESSIONS OR EXTENSIONS OF BONDED BLOCKS. 4 7 3.2.3.4
COMPRESSION OF BLOCKS BETWEEN FRICTIONAL S U R F A C E S . . 5 0
3.2.3.5 M A X I M U M ALLOWABLE LOADS I N TENSION A N D COMPRESSION 52
3.2.3.6 INDENTATION OF RUBBER BLOCKS BY RIGID INDENTORS 5 3
3.2.3.7 COMPRESSION OF O-RINGS 5 5
3.2.3.8 PROTRUSION OF RUBBER THROUGH A HOLE O R SLIT 5 5
IMAGE 3
3.3 LARGE DEFORMATIONS 5 6
3.3.1 GENERAL THEORY OF LARGE ELASTIC DEFORMATIONS 5 6
3.3.2 FORMS FOR W VALID A T LARGE STRAINS 5 8
3.3.3 STRESS-STRAIN RELATIONS I N SELECTED CASES 5 9
3.3.3.1 SIMPLE EXTENSION 5 9
3.3.3.2 EQUIBIAXIAL STRETCHING 6 1
3.3.3.3 CONSTRAINED TENSION (PURE SHEAR) 6 1
3.3.4 DETERMINING T H E STRAIN ENERGY FUNCTION W 6 3
3.3.4.1 ELASTIC BEHAVIOR OF FILLED RUBBER VULCANIZATES 6 5
3.3.4.2 DOES ANY STRAIN ENERGY FUNCTION APPLY? 6 7
3.3.5 OTHER STRESS-STRAIN RELATIONS VALID A T LARGE STRAINS 6 7
3.3.5.1 SIMPLE S H E A R 6 7
3.3.5.2 TORSION 7 0
3.3.5.3 INSTABILITY I N TORSION 7 2
3.3.5.4 INFLATION OF A THIN-WALLED TUBE [58] 7 3
3.3.5.5 INFLATION OF A SPHERICAL SHELL (BALLOON) 7 4
3.3.5.6 INFLATION OF A SPHERICAL CAVITY; EXPLOSIVE DECOMPRESSION 7 6
3.3.5.7 SURFACE CREASING IN COMPRESSION 7 7
3.4 MOLECULAR THEORY OF RUBBER ELASTICITY 7 8
3.4.1 ELASTIC BEHAVIOR OF A MOLECULAR NETWORK 7 8
3.4.3 EFFECTIVE DENSITY OF NETWORK STRANDS 8 1
3.4.4 THE SECOND TERM I N T H E STRAIN ENERGY FUNCTION 8 2
3.4.5 CONCLUDING R E M A R K S O N MOLECULAR THEORIES 8 3
ACKNOWLEDGMENTS 8 4
REFERENCES 8 4
PROBLEMS FOR CHAPTER 3 8 7
ANSWERS TO SELECTED PROBLEMS FOR CHAPTER 3 8 8
4 DYNAMIC MECHANICAL PROPERTIES 8 9
4.1 INTRODUCTION 8 9
4.2 STRESS WAVES I N RUBBERY SOLIDS, TRANSIT TIMES, A N D SPEEDS OF
RETRACTION 9 0
4.3 VISCOELASTICITY 9 2
4.4 DYNAMIC EXPERIMENTS 9 6
4.5 ENERGY CONSIDERATIONS 100
4.6 MOTION OF A S U S P E N D E D MASS 102
4.7 EXPERIMENTAL TECHNIQUES 106
4.7.1 FORCED NONRESONANCE VIBRATION 106
4.7.2 FORCED RESONANCE VIBRATION 106
4.7.3 FREE VIBRATION METHODS 107
IMAGE 4
4.7.4 REBOUND RESILIENCE 107
4.7.5 EFFECT OF STATIC A N D DYNAMIC STRAIN LEVELS 108
4.8 APPLICATION OF DYNAMIC MECHANICAL M E A S U R E M E N T S 108
4.8.1 HEAT GENERATION I N RUBBER COMPONENTS 108
4.8.2 VIBRATION ISOLATION 109
4.8.3 SHOCK ABSORBERS 109
4.9 EFFECTS OF TEMPERATURE A N D F R E Q U E N C Y 110
4.10 THIXOTROPIC EFFECTS I N FILLED RUBBER COMPOUNDS 114
ACKNOWLEDGMENTS 116
REFERENCES 116
PROBLEMS FOR CHAPTER 4 116
ANSWERS TO PROBLEMS FOR CHAPTER 4 117
5 STRENGTH 119
5.1 INTRODUCTION 119
5.2 FRACTURE MECHANICS 119
5.2.1 ANALYSIS OF T H E TEST PIECES 122
5.2.2 THE STRAIN ENERGY CONCENTRATION A T A CRACK TIP 1 2 3
5.3 TEAR BEHAVIOR 125
5.4 CRACK GROWTH U N D E R REPEATED LOADING 131
5.4.1 THE FATIGUE LIMIT A N D T H E EFFECT OF OZONE 132
5.4.2 PHYSICAL INTERPRETATION OF G 0 1 3 3
5.4.3 EFFECTS OF TYPE OF ELASTOMER A N D FILLER 135
5.4.4 EFFECT OF OXYGEN 135
5.4.5 EFFECTS OF F R E Q U E N C Y A N D TEMPERATURE 137
5.4.6 NONRELAXING EFFECTS 137
5.4.7 TIME-DEPENDENT FAILURE 138
5.5 OZONE ATTACK 138
5.6 TENSILE STRENGTH 142
5.7 CRACK GROWTH I N S H E A R A N D COMPRESSION 144
5.8 CAVITATION A N D RELATED FAILURES 147
5.9 CONCLUSIONS 148
REFERENCES 149
PROBLEMS FOR CHAPTER 5 152
ANSWERS TO PROBLEMS FOR CHAPTER 5 1 5 3
6 MECHANICAL FATIGUE 159
6.1 INTRODUCTION 159
6.2 APPLICATION OF FRACTURE MECHANICS TO MECHANICAL FATIGUE OF RUBBER .
1 6 1 6.3 INITIATION A N D PROPAGATION OF CRACKS 1 6 3
6.3.1 FATIGUE CRACK INITIATION 1 6 3
IMAGE 5
6.3.2 FATIGUE LIFE A N D CRACK GROWTH 164
6.3.3 FATIGUE CRACK PROPAGATION: THE FATIGUE CRACK GROWTH CHARACTERISTIC
166
6.3.4 FATIGUE LIFE DETERMINATIONS FROM T H E CRACK GROWTH
CHARACTERISTICS 168
6.4 FATIGUE CRACK GROWTH TEST METHODOLOGY 170
6.4.1 EXPERIMENTAL DETERMINATION OF DYNAMIC TEARING ENERGIES
FOR FATIGUE CRACK PROPAGATION 170
6.4.2 KINETICS OF CRACK GROWTH 171
6.4.3 EFFECTS OF TEST VARIABLES O N FATIGUE CRACK GROWTH CHARACTERISTICS
A N D DYNAMIC FATIGUE LIFE 172
6.4.3.1 WAVEFORM 172
6.4.3.2 F R E Q U E N C Y 172
6.4.3.3 TEMPERATURE 172
6.4.3.4 STATIC STRAIN/STRESS 174
6.5 MATERIAL VARIABLES A N D THEIR EFFECT O N FATIGUE CRACK GROWTH 176
6.5.1 REINFORCING FILLERS A N D COMPOUND MODULUS 176
6.5.2 ELASTOMER TYPE 178
6.5.3 VULCANIZING SYSTEM 179
6.5.3 FATIGUE OF DOUBLE NETWORK ELASTOMERS A N D BLENDS 181
6.6 FATIGUE A N D CRACK GROWTH OF RUBBER U N D E R BIAXIAL STRESSES A N
D
MULTIAXIAL LOADING 182
6.7 FATIGUE I N RUBBER COMPOSITES 184
6.7.1 EFFECT OF WIRES, CORDS, A N D THEIR SPACING O N FATIGUE CRACK
PROPAGATION 185
6.7.2 EFFECT OF M I N I M U M STRAIN OR STRESS 185
6.7.3 COMPARISON OF S - N CURVE A N D FATIGUE CRACK PROPAGATION
CONSTANTS FOR RUBBER-WIRE COMPOSITES [53] 187
6.7.4 FATIGUE OF TWO-PLY RUBBER-CORD LAMINATES 188
6.8 FATIGUE CRACKING OF RUBBER I N COMPRESSION A N D S H E A R
APPLICATIONS . 189
6.8.1 CRACK GROWTH I N COMPRESSION 189
6.8.2 CRACK GROWTH I N S H E A R 192
6.9 ENVIRONMENTAL EFFECTS 193
6.10 MODELING A N D LIFE PREDICTIONS OF ELASTOMERIC COMPONENTS 194
6.11 FATIGUE CRACK PROPAGATION OF THERMOPLASTIC ELASTOMERS - 194
6.12 DURABILITY OF THERMOPLASTIC ELASTOMERS 195
6.13 S U M M A R Y 197
ACKNOWLEDGMENTS 1 9 8
REFERENCES 198
PROBLEMS FOR CHAPTER 6 2 0 0
ANSWERS TO PROBLEMS FOR CHAPTER 6 2 0 1
IMAGE 6
7 DURABILITY 2 0 5
7.1 INTRODUCTION 2 0 5
7.2 CREEP, STRESS RELAXATION, A N D SET 2 0 7
7.2.1 CREEP 2 0 8
7.2.2 STRESS RELAXATION 2 0 8
7.2.3 PHYSICAL RELAXATION 2 0 9
7.2.4 CHEMICAL RELAXATION 2 1 1
7.2.5 COMPRESSION SET A N D RECOVERY 2 1 1
7.2.6 CASE HISTORY STUDY 2 1 3
7.3 LONGEVITY OF ELASTOMERS I N AIR 2 1 4
7.3.1 DURABILITY A T A M B I E N T TEMPERATURES 2 1 4
7.3.2 SUNLIGHT A N D WEATHERING 2 1 5
7.3.3 OZONE CRACKING 2 1 5
7.3.4 STRUCTURAL BEARINGS: CASE HISTORIES 2 1 6
7.3.4.1 NATURAL RUBBER PADS FOR A RAIL VIADUCT AFTER
100 YEARS OF SERVICE 2 1 6
7.3.4.2 LAMINATED BRIDGE BEARINGS AFTER 20 YEARS OF SERVICE 2 1 7
7.4 EFFECT OF LOW TEMPERATURES 2 2 0
7.4.1 GLASS TRANSITION 2 2 0
7.4.2 CRYSTALLIZATION 2 2 1
7.5 EFFECT OF ELEVATED TEMPERATURES 2 2 2
7.6 EFFECT OF FLUID ENVIRONMENTS 2 2 4
7.6.1 AQUEOUS LIQUIDS 2 2 9
7.6.2 HYDROCARBON LIQUIDS 2 3 2
7.6.3 HYDROCARBON A N D OTHER GASES 2 3 5
7.6.3.1 PRESSURIZED C 0 2 FOR ASSESSING INTERFACE QUALITY
IN BONDED RUBBER/RUBBER SYSTEMS 2 4 0
7.6.4 EFFECTS OF TEMPERATURE A N D CHEMICAL FLUID ATTACK 2 4 0
7.6.5 EFFECT OF RADIATION 2 4 2
7.7 DURABILITY OF RUBBER-METAL BONDS 2 4 3
7.7.1 ADHESION TESTS 2 4 3
7.7.2 RUBBER-METAL ADHESIVE SYSTEMS 2 4 5
7.7.3 DURABILITY I N SALT WATER: ROLE OF ELECTROCHEMICAL POTENTIALS . .
2 4 6
7.8 LIFE PREDICTION METHODOLOGY 2 4 8
ACKNOWLEDGMENT 2 5 1
REFERENCES 2 5 1
PROBLEMS FOR CHAPTER 7 2 5 3
ANSWERS TO PROBLEMS FOR CHAPTER 7 2 5 6
IMAGE 7
8 DESIGN OF COMPONENTS 2 5 9
8.1 INTRODUCTION 2 5 9
8.2 S H E A R A N D COMPRESSION BEARINGS 2 6 1
8.2.1 P L A N A R SANDWICH FORMS 2 6 1
8.2.2 LAMINATE BEARINGS 2 6 7
8.2.3 TUBE FORM BEARINGS A N D MOUNTINGS 2 6 9
8.2.4 EFFECTIVE SHAPE FACTORS 2 7 4
8.3 VIBRATION A N D NOISE CONTROL 2 7 5
8.3.1 VIBRATION BACKGROUND INFORMATION 2 7 6
8.3.2 DESIGN REQUIREMENTS 2 7 8
8.3.3 SAMPLE PROBLEMS 2 7 8
8.4 PRACTICAL DESIGN GUIDELINES 2 8 7
8.5 S U M M A R Y A N D ACKNOWLEDGMENTS 2 8 8
NOMENCLATURE 2 8 9
REFERENCES 2 9 0
PROBLEMS FOR CHAPTER 8 2 9 0
ANSWERS TO PROBLEMS FOR CHAPTER 8 2 9 1
9A FINITE ELEMENT ANALYSIS 2 9 5
9A.L INTRODUCTION 2 9 5
9A.2 MATERIAL SPECIFICATION 2 9 7
9A.2.1 METAL 2 9 7
9A.2.2 ELASTOMERS 2 9 8
9A.2.2.1 LINEAR 2 9 8
9A.2.2.2 NON-LINEAR 3 0 3
9A.2.2.2.1 NON-LINEAR CHARACTERISTICS 3 0 3
9A.2.2.2.2 NON-LINEAR MATERIAL MODELS 3 0 3
9A.2.2.2.3 OBTAINING MATERIAL DATA 3 0 4
9A.2.2.2.4 OBTAINING T H E COEFFICIENTS 3 0 9
9A.2.2.2.5 MOONEY-RIVLIN MATERIAL COEFFICIENTS 3 1 0
9A.2.3 ELASTOMER MATERIAL MODEL CORRELATION 3 1 1
9A.2.3.1 ASTM 412 TENSILE CORRELATION 3 1 1
9A.2.3.2 P U R E S H E A R CORRELATION 312
9A.2.3.3 BI-AXIAL CORRELATION 3 1 2
9A.2.3.4 SIMPLE S H E A R CORRELATION 3 1 2
9A.3 TERMINOLOGY A N D VERIFICATION 3 1 3
9A.3.1 TERMINOLOGY 3 1 3
9A.3.2 TYPES OF FEA MODELS 3 1 4
9A.3.3 MODEL BUILDING 3 1 5
9A.3.4 BOUNDARY CONDITIONS 3 1 7
9A.3.5 SOLUTION 3 1 8
IMAGE 8
9A.3.5.1 TANGENT STIFFNESS 3 1 8
9A.3.5.2 NEWTON-RAPHSON 3 1 9
9A.3.5.3 NON-LINEAR MATERIAL BEHAVIOR 3 1 9
9A.3.5.4 VISCOELASTICITY (SEE CHAPTER 4) 3 1 9
9A.3.5.5 MODEL VERIFICATION 3 2 0
9A.3.6 RESULTS 3 2 0
9A.3.7 LINEAR VERIFICATION 322
9A.3.8 CLASSICAL VERIFICATION - NON-LINEAR 3 2 3
9A.4 EXAMPLE APPLICATIONS 3 2 5
9A.4.1 POSITIVE DRIVE TIMING BELT 3 2 5
9A.4.2 DOCK F E N D E R 3 2 6
9A.4.3 RUBBER BOOT 3 2 9
9A.4.4 B U M P E R DESIGN . 3 3 1
9A.4.5 LAMINATED BEARING 3 3 3
9A.4.6 DOWN HOLE PACKER 3 3 5
9A.4.7 BONDED SANDWICH MOUNT 3 3 7
9A.4.8 O-RING 3 3 9
9A.4.9 ELASTOMER HOSE MODEL 3 3 9
9A.4.10 SAMPLE BELT 3 4 0
REFERENCES 3 4 2
9B DEVELOPMENTS IN FINITE ELEMENT ANALYSIS 3 4 5
9B. 1 INTRODUCTION 3 4 5
9B.2 MATERIAL MODELS 3 4 5
9B.2.1 HYPERELASTIC MODELS 3 4 6
9B.2.2 COMPRESSIBILITY 3 5 0
9B.2.3 DEVIATIONS FROM HYPERELASTICITY 3 5 1
9B.2.3.1 VISCOELASTICITY 3 5 1
9B.2.3.2 STRESS-SOFTENING 3 5 2
9B.3 FEA MODELLING TECHNIQUES 3 5 3
9B.3.1 PRE- A N D POST-PROCESSING 3 5 3
9B.3.2 CHOICE OF ELEMENTS 3 5 4
9B.3.3 CONVERGENCE 3 5 5
9B.3.4 FRACTURE MECHANICS 3 5 6
9B.4 VERIFICATION 3 5 6
9B.4.1 STRESSES A N D STRAINS 3 5 7
9B.4.2 TEARING ENERGY 3 5 8
9B.5 APPLICATIONS 3 5 9
9B.5.1 LOAD DEFLECTION 35,9
9B.5.2 FAILURE 3 6 0
REFERENCES 3 6 2
IMAGE 9
10 TESTS AND SPECIFICATIONS 3 6 5
10.1 INTRODUCTION 3 6 5
10.1.1 STANDARD TEST METHODS 3 6 5
10.1.2 PURPOSE OF TESTING 3 6 6
10.1.3 TEST PIECE PREPARATION 3 6 6
10.1.4 TIME BETWEEN VULCANIZATION A N D TESTING 3 6 7
10.1.5 SCOPE OF THIS CHAPTER 3 6 7
10.2 M E A S U R E M E N T OF DESIGN PARAMETERS 3 6 7
10.2.1 YOUNG S MODULUS 3 6 8
10.2.2 SHEAR MODULUS 3 7 0
10.2.3 CREEP A N D STRESS RELAXATION 372
10.2.3.1 CREEP 3 7 3
10.2.3.2 STRESS RELAXATION 3 7 4
10.3 QUALITY CONTROL TESTS 3 7 4
10.3.1 H A R D N E S S 3 7 5
10.3.1.1 DUROMETER 3 7 5
10.3.1.2 INTERNATIONAL RUBBER H A R D N E S S TESTER 3 7 6
10.3.2 TENSILE PROPERTIES 3 7 8
10.3.3 COMPRESSION SET 3 8 0
10.3.4 ACCELERATED AGING 3 8 1
10.3.4.1 AGING I N AN AIR OVEN 3 8 1
10.3.4.2 OZONE CRACKING 3 8 2
10.3.5 LIQUID RESISTANCE 3 8 4
10.3.5.1 FACTORS IN SWELLING 3 8 4
10.3.5.2 SWELLING TESTS 3 8 5
10.3.6 ADHESION TO SUBSTRATES 3 8 5
10.3.7 PROCESSABILITY 3 8 8
10.4 DYNAMIC PROPERTIES 3 9 0
10.4.1 RESILIENCE 3 9 2
10.4.2 YERZLEY OSCILLOGRAPH 3 9 3
10.4.3 RESONANT BEAM 3 9 4
10.4.4 SERVOHYDRAULIC TESTERS 3 9 5
10.4.5 ELECTRODYNAMIC TESTERS 3 9 6
10.4.6 PREFERRED TEST CONDITIONS 3 9 7
10.5 TESTS FOR TIRES 3 9 7
10.5.1 BEAD UNSEATING RESISTANCE 3 9 8
10.5.2 TIRE STRENGTH 3 9 9
10.5.3 TIRE ENDURANCE 4 0 0
10.5.4 HIGH SPEED PERFORMANCE 4 0 0
10.6 SPECIFICATIONS 4 0 1
10.6.1 CLASSIFICATION SYSTEM 4 0 1
IMAGE 10
10.6.1.1 TYPE 4 0 2
10.6.1.2 CLASS 4 0 3
10.6.1.3 F U R T H E R DESCRIPTION 4 0 3
10.6.2 TOLERANCES 4 0 6
10.6.2.1 MOLDED PRODUCTS 4 0 6
10.6.2.2 EXTRUDED PRODUCTS 4 0 8
10.6.2.3 LOAD-DEFLECTION CHARACTERISTICS 4 0 8
10.6.3 RUBBER BRIDGE BEARINGS 4 0 9
10.6.3.1 FUNCTION 4 0 9
10.6.3.2 DESIGN CODE 4 1 0
10.6.3.3 MATERIALS SPECIFICATION 4 1 1
10.6.4 PIPE SEALING RINGS 4 1 3
10.6.4.1 FUNCTION 4 1 3
10.6.4.2 MATERIALS 4 1 3
10.6.4.3 TENSILE PROPERTIES 4 1 3
10.6.4.4 COMPRESSION SET 4 1 4
10.6.4.5 LOW TEMPERATURE FLEXIBILITY 4 1 4
10.6.4.6 OVEN AGING 4 1 5
10.6.4.7 OIL RESISTANCE 4 1 5
10.6.4.8 CLOSING R E M A R K S 4 1 5
REFERENCES 4 1 6
PROBLEMS FOR CHAPTER 10 4 1 9
ANSWERS TO PROBLEMS FOR CHAPTER 10 4 2 0
APPENDIX: TABLES OF PHYSICAL CONSTANTS 4 2 3
INDEX 4 2 7
|
| any_adam_object | 1 |
| author_GND | (DE-588)112448097 |
| building | Verbundindex |
| bvnumber | BV039929085 |
| callnumber-first | T - Technology |
| callnumber-label | TA455 |
| callnumber-raw | TA455.R8 |
| callnumber-search | TA455.R8 |
| callnumber-sort | TA 3455 R8 |
| callnumber-subject | TA - General and Civil Engineering |
| classification_rvk | UV 9150 ZM 5300 |
| classification_tum | WER 670f |
| ctrlnum | (OCoLC)779119845 (DE-599)BVBBV039929085 |
| dewey-full | 620.1/94 |
| dewey-hundreds | 600 - Technology (Applied sciences) |
| dewey-ones | 620 - Engineering and allied operations |
| dewey-raw | 620.1/94 |
| dewey-search | 620.1/94 |
| dewey-sort | 3620.1 294 |
| dewey-tens | 620 - Engineering and allied operations |
| discipline | Physik Werkstoffwissenschaften Werkstoffwissenschaften / Fertigungstechnik |
| edition | 3. ed. |
| format | Book |
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| id | DE-604.BV039929085 |
| illustrated | Illustrated |
| indexdate | 2024-08-01T11:20:06Z |
| institution | BVB |
| isbn | 9783446427648 9781569905081 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-024787389 |
| oclc_num | 779119845 |
| open_access_boolean | |
| owner | DE-91G DE-BY-TUM DE-92 DE-12 DE-862 DE-BY-FWS DE-210 DE-29T DE-83 DE-863 DE-BY-FWS DE-573 |
| owner_facet | DE-91G DE-BY-TUM DE-92 DE-12 DE-862 DE-BY-FWS DE-210 DE-29T DE-83 DE-863 DE-BY-FWS DE-573 |
| physical | XVIII, 433 S. Ill., graph. Darst. 25 cm |
| publishDate | 2012 |
| publishDateSearch | 2012 |
| publishDateSort | 2012 |
| publisher | Hanser |
| record_format | marc |
| spellingShingle | Engineering with rubber how to design rubber components Caoutchouc ram Engineering design Rubber Entwurf (DE-588)4121208-3 gnd Technik (DE-588)4059205-4 gnd Werkstoffgerechtes Konstruieren (DE-588)4233887-6 gnd Gummibauteil (DE-588)4158551-3 gnd Gummiformteil (DE-588)4196984-4 gnd Gummi (DE-588)4022538-0 gnd Kautschuk (DE-588)4030108-4 gnd Konstruieren (DE-588)4139312-0 gnd |
| subject_GND | (DE-588)4121208-3 (DE-588)4059205-4 (DE-588)4233887-6 (DE-588)4158551-3 (DE-588)4196984-4 (DE-588)4022538-0 (DE-588)4030108-4 (DE-588)4139312-0 |
| title | Engineering with rubber how to design rubber components |
| title_auth | Engineering with rubber how to design rubber components |
| title_exact_search | Engineering with rubber how to design rubber components |
| title_full | Engineering with rubber how to design rubber components [Hrsg.:] Alan N. Gent |
| title_fullStr | Engineering with rubber how to design rubber components [Hrsg.:] Alan N. Gent |
| title_full_unstemmed | Engineering with rubber how to design rubber components [Hrsg.:] Alan N. Gent |
| title_short | Engineering with rubber |
| title_sort | engineering with rubber how to design rubber components |
| title_sub | how to design rubber components |
| topic | Caoutchouc ram Engineering design Rubber Entwurf (DE-588)4121208-3 gnd Technik (DE-588)4059205-4 gnd Werkstoffgerechtes Konstruieren (DE-588)4233887-6 gnd Gummibauteil (DE-588)4158551-3 gnd Gummiformteil (DE-588)4196984-4 gnd Gummi (DE-588)4022538-0 gnd Kautschuk (DE-588)4030108-4 gnd Konstruieren (DE-588)4139312-0 gnd |
| topic_facet | Caoutchouc Engineering design Rubber Entwurf Technik Werkstoffgerechtes Konstruieren Gummibauteil Gummiformteil Gummi Kautschuk Konstruieren |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=024787389&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT gentalann engineeringwithrubberhowtodesignrubbercomponents |
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