Fundamentals of fluid film lubrication:
Gespeichert in:
| Hauptverfasser: | , , |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
New York [u.a.]
Dekker
2004
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| Ausgabe: | 2. ed. |
| Schriftenreihe: | Mechanical engineering
169 |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XIV, 699 S. graph. Darst. |
| ISBN: | 0824753712 |
Internformat
MARC
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| 100 | 1 | |a Hamrock, Bernard J. |e Verfasser |4 aut | |
| 245 | 1 | 0 | |a Fundamentals of fluid film lubrication |c Bernard J. Hamrock ; Steven R. Schmid ; Bo O. Jacobson |
| 250 | |a 2. ed. | ||
| 264 | 1 | |a New York [u.a.] |b Dekker |c 2004 | |
| 300 | |a XIV, 699 S. |b graph. Darst. | ||
| 336 | |b txt |2 rdacontent | ||
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| 490 | 1 | |a Mechanical engineering |v 169 | |
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| 700 | 1 | |a Schmid, Steven R. |e Verfasser |4 aut | |
| 700 | 1 | |a Jacobson, Bo O. |e Verfasser |4 aut | |
| 830 | 0 | |a Mechanical engineering |v 169 |w (DE-604)BV001900049 |9 169 | |
| 856 | 4 | 2 | |m HEBIS Datenaustausch Darmstadt |q application/pdf |u http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=012036868&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |3 Inhaltsverzeichnis |
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Datensatz im Suchindex
| _version_ | 1804131854873264128 |
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| adam_text | FUNDAMENTALS OF FLUID FILM LUBRICATION CONTENTS 1 INTRODUCTION 1 1.1
INTRODUCTION 1 1.2 CONFORMAL AND NONCONFORMAL SURFACES 2 1.3 LUBRICATION
REGIMES 3 1.3.1 HISTORICAL PERSPECTIVE 3 1.3.2 HYDRODYNAMIC LUBRICATION
4 1.3.3 ELASTOHYDRODYNAMIC LUBRICATION 5 1.3.4 BOUNDARY LUBRICATION 7
1.3.5 PARTIAL LUBRICATION 17 1.3.6 STRIBECK CURVE 17 1.4 CLOSURE 19 1.5
PROBLEMS 20 2 BEARING CLASSIFICATION AND SELECTION 23 2.1 INTRODUCTION
23 2.2 BEARING CLASSIFICATION ; 24 2.2.1 DRY RUBBING BEARINGS 24 2.2.2
IMPREGNATED BEARINGS 24 2.2.3 CONFORMAL FLUID FILM BEARINGS 25 2.2.4
ROLLING-ELEMENT BEARINGS 27 2.3 BEARING SELECTION 28 2.4 CLOSURE 37 2.5
PROBLEMS 37 3 SURFACE TOPOGRAPHY 39 3.1 INTRODUCTION 39 3.2 GEOMETRIC
CHARACTERISTICS OF SURFACES 40 3.3 CONTACTING MEASUREMENT METHODS 41
3.3.1 STYLUS PROFILOVNETRY 41 3.3.2 ATOMIC FORCE MICROSCOPY 42 3.4
NONCONTACTING MEASUREMENT DEVICES 43 3.5 REFERENCE LINES 45 3.5.1 MEAN,
OR M SYSTEM 47 FUNDAMENTALS OF FLUID FILM LUBRICATION 3.5.2 TEN-POINT
AVERAGE 47 3.5.3 LEAST SQUARES 47 3.6 COMPUTATION OF SURFACE PARAMETERS
48 3.7 AUTOCORRELATION PARAMETER 55 3.8 DISTRIBUTION OF SLOPE AND
CURVATURE 56 3.9 FILM PARAMETERS FOR DIFFERENT LUBRICATION REGIMES 57
3.10 TRANSITION BETWEEN LUBRICATION REGIMES 58 3.11 CLOSURE 60 3.12
PROBLEMS 61 4 LUBRICANT PROPERTIES 63 4.1 INTRODUCTION 63 4.2 BASIC
CHEMISTRY 64 4.2.1 HYDROCARBONS 64 4.2.2 ALCOHOLS 66 4.2.3 FATTY ACIDS
67 4.2.4 CYCLIC HYDROCARBONS 68 4.3 PETROLEUM OR MINERAL OIL BASE STOCKS
70 4.4 SYNTHETIC OIL BASE STOCKS 71 4.4.1 SYNTHETIC HYDROCARBONS 71
4.4.2 ORGANIC ESTERS 73 4.4.3 POLYGLYCOLS 74 4.4.4 PHOSPHATE ESTERS 74
4.4.5 SILICON-CONTAINING COMPOUNDS 74 4.4.6 HALOGEN-CONTAINING COMPOUNDS
75 4.4.7 HALOGENATED POLYARYLS 76 4.4.8 FLUOROCARBONS 76 4.4.9
PERFLUOROPOLYGLYCOLS 76 4.5 GREASE BASE STOCKS 76 4.5.1 THICKENERS 77
4.5.2 LUBRICATING OIL 79 4.6 GASES 80 4.7 EMULSIONS 82 4.8 LUBRICANT
ADDITIVES 84 4.9 NEWTONIAN FLUIDS 85 4.10 NEWTON S POSTULATE 86 4.11
UNITS OF ABSOLUTE VISCOSITY 87 4.12 KINEMATIC VISCOSITY 88 4.13
VISCOSITY GRADE SYSTEM 89 4.14 VISCOSITY-PRESSURE EFFECTS 91 4.15
VISCOSITY-TEMPERATURE EFFECTS 97 4.16 VISCOSITY-PRESSURE-TEMPERATURE
EFFECTS 99 4.17 VISCOSITY-SHEAR RATE EFFECTS 101 4.18 VISCOSITY INDEX
102 4.19 OXIDATION STABILITY 105 CONTENTS 4.20 POUR POINT 106 4.21
DENSITY 106 4.22 LIMITING SHEAR STRESS 110 4.23 FLUID RHEOLOGY MODELS
113 4.24 FORMULATION OF FLUID RHEOLOGY MODELS 115 4.25 CLOSURE 118 4.26
PROBLEMS 119 5 BEARING MATERIALS 123 5.1 INTRODUCTION 123 5.2 MATERIAL
CHARACTERISTICS 123 5.3 METALLICS 125 5.3.1 TIN- AND LEAD-BASE ALLOYS
125 5.3.2 COPPER-LEAD ALLOYS 129 5.3.3 BRONZES 129 5.4 NONMETALLICS 129
5.4.1 CARBON GRAPHITES 131 5.4.2 PHENOLICS 132 5.4.3 NYLON 134 5.4.4
TEFLON 134 5.5 FORM OF BEARING SURFACES 134 5.6 MATERIALS AND
MANUFACTURING PROCESSES USED FOR ROLLING-ELEMENT BEARINGS 135 5.6.1
FERROUS ALLOYS 136 5.6.2 CERAMICS 139 5.7 PROPERTIES OF COMMON BEARING
MATERIALS 139 5.7.1 DENSITY 140 5.7.2 MODULUS OF ELASTICITY AND
POISSON S RATIO 142 5.7.3 LINEAR THERMAL EXPANSION COEFFICIENT 143 5.7.4
THERMAL CONDUCTIVITY 143 5.7.5 SPECIFIC HEAT CAPACITY : 147 5.8 CLOSURE
152 5.9 PROBLEM * 153 6 VISCOUS FLOW 155 6.1 INTRODUCTION 156 6.2
PETROV S EQUATION 156 6.3 NAVIER-STOKES EQUATIONS 158 6.3.1 SURFACE
FORCES 158 6.3.2 BODY FORCES 160 6.3.3 INERTIA FORCES 161 6.3.4
EQUILIBRIUM 161 6.3.5 STANDARD FORMS 162 6.4 CONTINUITY EQUATION 165 6.5
FLOW BETWEEN PARALLEL FLAT PLATES 167 VIII FUNDAMENTALS OF FLUID FILM
LUBRICATION 6.6 FLOW IN A CIRCULAR PIPE 169 6.7 FLOW DOWN A VERTICAL
PLANE 171 6.8 VISCOMETERS 172 6.8.1 CAPILLARY VISCOMETERS 172 6.8.2
ROTATIONAL VISCOMETERS 174 6.8.3 FALLING-SPHERE VISCOMETER 175 6.9
CLOSURE 177 6.10 PROBLEMS 178 7 REYNOLDS EQUATION 181 7.1 INTRODUCTION
182 7.2 DIMENSIONLESS NUMBERS 182 7.2.1 REYNOLDS NUMBER 183 7.2.2 TAYLOR
NUMBER 185 7.2.3 FROUDE NUMBER 186 7.2.4 EULER NUMBER 187 7.3 REYNOLDS
EQUATION DERIVED 188 7.3.1 FROM NAVIER-STOKES AND CONTINUITY EQUATIONS
188 7.3.2 FROM LAWS OF VISCOUS FLOW AND PRINCIPLE OF MASS CON- SERVATION
192 7.4 PHYSICAL SIGNIFICANCE OF TERMS IN REYNOLDS EQUATION 193 7.4.1
DENSITY WEDGE TERM (U A + U B ) H/2] {DP/DX) 195 7.4.2 STRETCH TERM
{PH/2)[D(U A + U B ) )DX] 196 7.4.3 PHYSICAL WEDGE TERM [P(U A +U B
)/2}(DH/DX) 196 7.4.4 NORMAL SQUEEZE TERM P (W A * W B ) 197 7.4.5
TRANSLATION SQUEEZE TERM * PU A (DH/DX) 19 7 7.4.6 LOCAL EXPANSION TERM
H (DP/DT) 198 7.5 STANDARD REDUCED FORMS OF REYNOLDS EQUATION 198 7.6
DIFFERENT NORMAL SQUEEZE AND SLIDING MOTIONS 201 7.7 CLOSURE 204 7.8
PROBLEMS 204 8 HYDRODYNAMIC THRUST BEARINGS - ANALYTICAL SOLUTIONS 209
8.1 INTRODUCTION 210 8.2 MECHANISM OF PRESSURE DEVELOPMENT 210 8.3
GENERAL THRUST BEARING THEORY 213 8.4 PARALLEL-SURFACE SLIDING BEARING
217 8.5 FIXED-INCLINE SLIDER BEARING 218 8.5.1 PRESSURE DISTRIBUTION 218
8.5.2 NORMAL LOAD COMPONENT 221 8.5.3 TANGENTIAL FORCE COMPONENTS 221
8.5.4 SHEAR FORCE COMPONENTS 222 8.5.5 FRICTION COEFFICIENT 223 8.5.6
VOLUME FLOW RATE 224 8.5.7 POWER LOSS AND TEMPERATURE RISE 224 CONTENTS
IX 8.5.8 CENTER OF PRESSURE 225 8.5.9 VELOCITY PROFILE AND STREAM
FUNCTION 226 8.6 PARALLEL-STEP SLIDER BEARING 229 8.6.1 PRESSURE
DISTRIBUTION 231 8.6.2 NORMAL AND TANGENTIAL LOAD COMPONENTS 233 8.6.3
FRICTION COEFFICIENT AND VOLUME FLOW RATE 235 8.6.4 POWER LOSS,
TEMPERATURE RISE, AND CENTER OF PRESSURE . . 235 8.7 CLOSURE 236 5.8
PROBLEMS 237 9 HYDRODYNAMIC THRUST BEARINGS - NUMERICAL SOLUTIONS 241
9.1 INTRODUCTION 242 9.2 FINITE-WIDTH, PARALLEL-STEP-PAD SLIDER BEARING
242 9.2.1 PRESSURE DISTRIBUTION 243 9.2.2 NORMAL LOAD COMPONENT 246
9.2.3 RESULTS 249 9.3 FIXED-INCLINE-PAD SLIDER BEARING 250 9.4
PIVOTED-PAD SLIDER BEARING 258 9.5 THRUST BEARING GEOMETRY 264 9.6
CLOSURE 265 9.7 PROBLEMS 265 10 HYDRODYNAMIC JOURNAL BEARINGS -
ANALYTICAL SOLUTIONS 269 10.1 INTRODUCTION 270 10.2
INFINITELY-WIDE-JOURNAL-BEARING SOLUTION 271 10.2.1 FULL SOMMERFELD
SOLUTION 273 10.2.2 HALF SOMMERFELD SOLUTION 278 10.2.3 REYNOLDS
BOUNDARY CONDITIONS 280 10.3 SHORT-WIDTH-JOURNAL-BEARING THEORY 280 10.4
CLOSURE 285 10.5 PROBLEMS 286 11 HYDRODYNAMIC JOURNAL BEARINGS -
NUMERICAL SOLUTIONS 287 11.1 INTRODUCTION 288 11.2 OPERATING AND
PERFORMANCE PARAMETERS 288 11.3 DESIGN PROCEDURE 290 11.4 OPTIMIZATION
TECHNIQUES 297 11.5 DYNAMIC EFFECTS 298 11.6 NONPLAIN CONFIGURATIONS 299
11.7 CLOSURE 301 11.8 PROBLEMS 302 12 HYDRODYNAMIC SQUEEZE FILM BEARINGS
305 12.1 INTRODUCTION 306 12.2 PARALLEL-SURFACE BEARING OF INFINITE
WIDTH 306 12.3 JOURNAL BEARING 312 FUNDAMENTALS OF FLUID FILM
LUBRICATION 12.4 PARALLEL CIRCULAR PLATE 314 12.5 INFINITELY LONG
CYLINDER NEAR A PLANE 316 12.6 CLOSURE 318 12.7 PROBLEMS 318 13
HYDROSTATIC LUBRICATION 321 13.1 INTRODUCTION 322 13.2 FORMATION OF
FLUID FILM 322 13.3 PRESSURE DISTRIBUTION AND FLOW 323 13.4 NORMAL LOAD
COMPONENT 325 13.5 FRICTIONAL TORQUE AND POWER LOSS 326 13.6 PAD
COEFFICIENTS 331 13.6.1 CIRCULAR STEP BEARING PAD . 331 13.6.2 ANNULAR
THRUST BEARING 333 13.6.3 RECTANGULAR SECTORS 333 13.7 COMPENSATING
ELEMENTS 335 13.7.1 CAPILLARY COMPENSATION 336 13.7.2 ORIFICE
COMPENSATION 337 13.7.3 CONSTANT-FLOW-VALVE COMPENSATION 338 13.8
CLOSURE 339 13.9 PROBLEMS 340 14 GAS-LUBRICATED THRUST BEARINGS 345 14.1
INTRODUCTION 346 14.2 REYNOLDS EQUATION 347 14.2.1 LIMITING SOLUTIONS
349 14.2.2 SLIP FLOW 351 14.3 PARALLEL-SURFACE BEARING 352 14.3.1
LOW-BEARING-NUMBER RESULTS 352 14.3.2 HIGH-BEARING-NUMBER RESULTS 353
14.3.3 INTERMEDIATE-BEARING-NUMBER RESULTS 353 14.4 PARALLEL-STEP
BEARING 354 14.4.1 PRESSURE DISTRIBUTION 354 14.4.2 NORMAL LOAD
COMPONENT AND STIFFNESS 358 14.4.3 OPTIMIZING PROCEDURE 359 14.4.4 STEP
SECTOR THRUST BEARING 359 14.4.5 RESULTS 360 14.5 SPIRAL-GROOVE BEARING
362 14.6 CLOSURE 364 14.7 PROBLEMS 366 15 GAS-LUBRICATED JOURNAL
BEARINGS 369 15.1 INTRODUCTION 370 15.2 REYNOLDS EQUATION 370 15.3
LIMITING SOLUTIONS 371 CONTENTS 15.3.1 LOW BEARING NUMBERS 371 15.3.2
HIGH BEARING NUMBERS 372 15.4 PRESSURE PERTURBATION SOLUTION 374 15.5
LINEARIZED PH SOLUTION 377 15.6 NONPLAIN JOURNAL BEARINGS 380 15.6.1
PIVOTED-PAD JOURNAL BEARINGS 380 15.6.2 HERRINGBONE-GROOVE JOURNAL
BEARINGS 382 15.7 FOIL BEARINGS 386 15.8 CLOSURE 391 15.9 PROBLEMS 392
16 HYDRODYNAMIC LUBRICATION OF NONCONFORMAL SURFACES 395 16.1
INTRODUCTION 396 16.2 INFINITELY-WIDE-RIGID-CYLINDER SOLUTION 396 16.2.1
PRESSURE DISTRIBUTION 398 16.2.2 LOAD COMPONENTS 399 16.3
SHORT-WIDTH-RIGID-CYLINDER SOLUTION 401 16.3.1 PRESSURE DISTRIBUTION 401
16.3.2 LOAD COMPONENTS 402 16.4 EXACT RIGID-CYLINDER SOLUTION 402 16.4.1
PRESSURE DISTRIBUTION 402 16.4.2 LOAD COMPONENTS 404 16.5 GENERAL
RIGID-BODY SOLUTION 406 16.5.1 FILM SHAPE 406 16.5.2 PRESSURE
DISTRIBUTION 409 16.5.3 NORMAL LOAD COMPONENT 411 16.5.4 FILM THICKNESS
FORMULAS 412 16.6 STARVATION EFFECTS 414 16.6.1 FILM THICKNESS FORMULAS
414 16.6.2 PRESSURE DISTRIBUTION 416 16.6.3 FULLY FLOODED-STARVED
BOUNDARY 418 16.7 COMBINED SQUEEZE AND ENTRAINING MOTION 419 16.7.1
PRESSURE DISTRIBUTION AND LOAD 419 16.7.2 RESULTS AND DISCUSSION 421
16.8 CLOSURE 425 16.9 PROBLEMS 427 17 SIMPLIFIED SOLUTIONS FOR STRESSES
AND DEFORMATIONS 431 17.1 INTRODUCTION 432 17.2 CURVATURE SUM AND
DIFFERENCE 432 17.3 SURFACE STRESSES AND DEFORMATIONS 435 17.4
SUBSURFACE STRESSES 438 17.5 SIMPLIFIED SOLUTIONS 439 17.6 RECTANGULAR
CONJUNCTIONS 447 17.7 CLOSURE 449 FUNDAMENTALS OF FLUID FILM LUBRICATION
17.8 PROBLEMS 449 18 ELASTOHYDRODYNAMIC LUBRICATION OF RECTANGULAR
CONJUNCTIONS451 18.1 INTRODUCTION 452 18.2 INCOMPRESSIBLE SOLUTION 453
18.3 ELASTIC DEFORMATION 456 18.4 COMPRESSIBLE SOLUTION 460 18.5 FLOW,
LOADS, AND CENTER OF PRESSURE 463 18.5.1 MASS FLOW RATE PER UNIT WIDTH
463 18.5.2 TANGENTIAL LOAD COMPONENTS 463 18.5.3 SHEAR FORCES 465 18.5.4
CENTER OF PRESSURE 465 18.6 PRESSURE SPIKE RESULTS 466 18.6.1 ISOVISCOUS
AND VISCOUS RESULTS 466 18.6.2 DETAILS OF PRESSURE SPIKE AND FILM SHAPE
468 18.6.3 COMPRESSIBLE AND INCOMPRESSIBLE RESULTS 470 18.7 USEFUL
FORMULAS 471 18.7.1 PRESSURE SPIKE AMPLITUDE 472 18.7.2 PRESSURE SPIKE
LOCATION 476 18.7.3 MINIMUM AND CENTRAL FILM THICKNESSES 478 18.7.4
LOCATION OF MINIMUM FILM THICKNESS 482 18.7.5 CENTER OF PRESSURE 482
18.7.6 MASS FLOW RATE 485 18.8 CLOSURE 485 18.9 PROBLEM 487 19
ELASTOHYDRODYNAMIC LUBRICATION OF ELLIPTICAL CONJUNCTIONS 489 19.1
INTRODUCTION 490 19.2 RELEVANT EQUATIONS 490 19.3 DIMENSIONLESS
GROUPINGS 494 19.4 HARD-EHL RESULTS 496 19.5 COMPARISON BETWEEN
THEORETICAL AND EXPERIMENTAL FILM THICK- NESSES 500 19.6 SOFT-EHL
RESULTS 506 19.7 STARVATION RESULTS 508 19.7.1 FULLY FLOODED/STARVED
BOUNDARY 509 19.7.2 HARD-EHL RESULTS 509 19.7.3 SOFT-EHL RESULTS 513
19.8 CLOSURE 518 19.9 PROBLEM 521 20 FILM THICKNESSES FOR DIFFERENT
REGIMES OF FLUID FILM LUBRICA- TION 525 20.1 INTRODUCTION 526 20.2
DIMENSIONLESS GROUPING 527 CONTENTS 20.3 ISOVISCOUS-RIGID REGIME 528
20.4 VISCOUS-RIGID REGIME 529 20.5 ISOVISCOUS-ELASTIC REGIME 530 20.6
VISCOUS-ELASTIC REGIME 531 20.7 PROCEDURE FOR MAPPING THE DIFFERENT
LUBRICATION REGIMES . . . . 532 20.8 THERMAL CORRECTION FACTOR 536 20.9
SURFACE ROUGHNESS CORRECTION FACTOR 538 20.10CLOSURE 544 20.11PROBLEM
545 21 ROLLING ELEMENT BEARINGS 549 21.1 INTRODUCTION 550 21.2
HISTORICAL OVERVIEW 551 21.3 BEARING TYPES 552 21.3.1 BALL BEARINGS 552
21.3.2 ROLLER BEARINGS 557 21.4 GEOMETRY 559 21.4.1 GEOMETRY OF BALL
BEARINGS 561 21.4.2 GEOMETRY OF ROLLER BEARINGS 567 21.5 KINEMATICS 571
21.6 SEPARATORS 574 21.7 STATIC LOAD DISTRIBUTION 575 21.7.1 LOAD
DEFLECTION RELATIONSHIPS 575 21.7.2 RADIALLY LOADED BALL AND ROLLER
BEARINGS 576 21.7.3 THRUST-LOADED BALL BEARING 579 21.7.4 PRELOADING 582
21.8 ROLLING FRICTION AND FRICTION LOSSES 583 21.8.1 ROLLING FRICTION
583 21.8.2 FRICTION LOSSES 586 21.9 LUBRICATION SYSTEMS 587 21.9.1 SOLID
LUBRICATION 588 21.9.2 LIQUID LUBRICATION 588 21.10FATIGUE LIFE 592
21.10.1 CONTACT FATIGUE THEORY 592 21.10.2WEIBULL DISTRIBUTION 593
21.10.3 LUNDBERG-PALMGREN THEORY 595 21.10.4 AFBMA METHODS 599 21.10.5
LIFE ADJUSTMENT FACTORS 599 21.11DYNAMIC ANALYSES AND COMPUTER CODES 602
21.11.1 QUASI-STATIC ANALYSES 602 21.11.2 DYNAMIC ANALYSES 603
21.12IOANNIDES-HARRIS THEORY 604 21.13APPLICATIONS 604 21.13.1
CYLINDRICAL ROLLER BEARING EXAMPLE 604 21.13.2 RADIAL BALL BEARING
EXAMPLE 609 FUNDAMENTALS OF FLUID FILM LUBRICATION 21.14CLOSURE 614
21.15PROBLEMS 614 22 ADDITIONAL LUBRICATION APPLICATIONS 621 22.1
INTRODUCTION 622 22.2 INVOLUTE GEARS 622 22.3 CONTINUOUSLY
VARIABLE-SPEED DRIVES 625 22.3.1 ELASTICITY CALCULATIONS 627 22.3.2
ELASTOHYDRODYNAMIC FILM THICKNESS CALCULATIONS 629 22.4 RAILWAY WHEELS
ROLLING ON WET OR OILY RAILS 631 22.4.1 INITIAL CALCULATION 632 22.4.2
WATER 633 22.4.3 OIL 634 22.5 SYNOVIAL JOINTS 636 22.5.1 NATURAL JOINTS
636 22.5.2 ARTIFICIAL JOINTS 640 22.6 CLOSURE * 646 22.7 PROBLEMS 647 23
THERMOHYDRODYNAMIC AND THERMOELASTOHYDRODYNAMIC LUBRI- CATION 653 23.1
THERMOHYDRODYNAMIC LUBRICATION 654 23.1.1 INTRODUCTION 654 23.1.2
THERMAL RESISTANCES 655 23.1.3 THERMAL LOADING PARAMETERS AND THEIR
RELATIVE IMPOR- TANCE 656 23.1.4 THERMAL HYDRODYNAMIC LUBRICATION
REGIMES 659 23.2 THERMOELASTOHYDRODYNAMIC LUBRICATION 660 23.2.1
INTRODUCTION 660 23.2.2 THEORETICAL AND NUMERICAL SCHEMES 662 23.2.3
OUTLINE OF APPROACH 663 23.2.4 RESULTS AND DISCUSSION 664 23.3 CLOSURE
675 23.4 PROBLEMS 678 A CALCULATION OF ELASTIC DEFORMATIONS 683 B
CORRECTIONS TO BE APPLIED TO WEIGHTING FACTORS DUE TO X 687 C
CALCULATION OF JACOBIAN FACTORS 689 D DEFINITION OF WEIGHTING FACTORS
691
|
| any_adam_object | 1 |
| author | Hamrock, Bernard J. Schmid, Steven R. Jacobson, Bo O. |
| author_facet | Hamrock, Bernard J. Schmid, Steven R. Jacobson, Bo O. |
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| ctrlnum | (OCoLC)249654775 (DE-599)BVBBV019284714 |
| dewey-full | 621.89 |
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| dewey-sort | 3621.89 |
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| discipline | Maschinenbau / Maschinenwesen Chemie-Ingenieurwesen Maschinenbau |
| edition | 2. ed. |
| format | Book |
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| id | DE-604.BV019284714 |
| illustrated | Illustrated |
| indexdate | 2024-07-09T19:43:33Z |
| institution | BVB |
| isbn | 0824753712 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-012036868 |
| oclc_num | 249654775 |
| open_access_boolean | |
| owner | DE-91G DE-BY-TUM DE-703 DE-83 DE-29T DE-634 |
| owner_facet | DE-91G DE-BY-TUM DE-703 DE-83 DE-29T DE-634 |
| physical | XIV, 699 S. graph. Darst. |
| publishDate | 2004 |
| publishDateSearch | 2004 |
| publishDateSort | 2004 |
| publisher | Dekker |
| record_format | marc |
| series | Mechanical engineering |
| series2 | Mechanical engineering |
| spelling | Hamrock, Bernard J. Verfasser aut Fundamentals of fluid film lubrication Bernard J. Hamrock ; Steven R. Schmid ; Bo O. Jacobson 2. ed. New York [u.a.] Dekker 2004 XIV, 699 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Mechanical engineering 169 Flüssigkeitsschmierung (DE-588)4381049-4 gnd rswk-swf Flüssigkeitsschmierung (DE-588)4381049-4 s DE-604 Schmid, Steven R. Verfasser aut Jacobson, Bo O. Verfasser aut Mechanical engineering 169 (DE-604)BV001900049 169 HEBIS Datenaustausch Darmstadt application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=012036868&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Hamrock, Bernard J. Schmid, Steven R. Jacobson, Bo O. Fundamentals of fluid film lubrication Mechanical engineering Flüssigkeitsschmierung (DE-588)4381049-4 gnd |
| subject_GND | (DE-588)4381049-4 |
| title | Fundamentals of fluid film lubrication |
| title_auth | Fundamentals of fluid film lubrication |
| title_exact_search | Fundamentals of fluid film lubrication |
| title_full | Fundamentals of fluid film lubrication Bernard J. Hamrock ; Steven R. Schmid ; Bo O. Jacobson |
| title_fullStr | Fundamentals of fluid film lubrication Bernard J. Hamrock ; Steven R. Schmid ; Bo O. Jacobson |
| title_full_unstemmed | Fundamentals of fluid film lubrication Bernard J. Hamrock ; Steven R. Schmid ; Bo O. Jacobson |
| title_short | Fundamentals of fluid film lubrication |
| title_sort | fundamentals of fluid film lubrication |
| topic | Flüssigkeitsschmierung (DE-588)4381049-4 gnd |
| topic_facet | Flüssigkeitsschmierung |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=012036868&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| volume_link | (DE-604)BV001900049 |
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