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 |  موضوع: كتاب Advanced Gear Engineering الجمعة 11 سبتمبر 2020, 1:31 am | |
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Advanced Gear Engineering
Mechanisms and Machine Science 51
Veniamin Goldfarb , Evgenii Trubachev
Natalya Barmina Editors
و المحتوى كما يلي :
Contents
Computerized Simulation of Manufacturing Errors in Cylindrical
Spur Gears and Their Compensation Through Flank Modifications 1
Alfonso Fuentes-Aznar, Scott Eisele and Ignacio Gonzalez-Perez
Gear Geometry as a Function of the Production Method 27
A. Kubo and A. Ueda
Model of Loaded Contact in Multi-pair Gears . 45
E. Trubachev, A. Kuznetsov and A. Sannikov
Quality Characteristics of Gearing 73
D. Babichev and M. Storchak
Geometric Pitch Configurations—Basic Primitives
of the Mathematical Models for the Synthesis
of Hyperboloid Gear Drives 91
V. Abadjiev and E. Abadjieva
Load Distribution in Meshing of Planetary Gearwheels and Its
Influence on the Technical and Economic Performance of the
Mechanism 117
F. Plekhanov, V. Goldfarb and E. Vychuzhanina
Actual Issues of Design and Production of Advanced Worm Gears 139
S. Lagutin, A. Sandler and E. Gudov
Multi Axis CnC Manufacturing of Straight and Spiral Bevel Gears 167
C. Gosselin
Increase in Contact Strength of Heavy-Loaded Rolling
Bearings for Gear Drives and Transmissions 205
E. Tesker
viiFeatures of the Relationship Between Vibration, Lubrication and
Noise of Gears . 221
V.L. Basinyuk, V.E. Starzhinsky, A.I. Mardasevich, S.V. Shil’ko
and E.M. Petrokovets
Development of Geometric Descriptors for Gears and Gear Tools . 231
D. Babichev
S-gears: From Metal to Polymer Solution . 255
G. Hlebanja and J. Hlebanja
Aspects of Teaching “Advanced Gears” for Future Mechanical
Engineers Within “Bachelor of Sciences” Programs at Technical
Universities . 271
V. Goldfarb, E. Krylov, O. Perminova, N. Barmina and L. Vasiliev
Kinematics of Bevel Biplanetary Gear 289
J. Drewniak, T. Kądziołka and S. Zawiślak
Tool Profiling for the Grinding of Helical Surfaces . 305
V. Medvedev and A. Volkov
Practice of Design and Production of Worm Gears
with Localized Contact 327
E. Trubachev, T. Savelyeva and T. Pushkareva
Optimization of Requirements for Accuracy of Base Surfaces
for Spur and Helical Gearwheels at Their Tooth Cutting 345
M. Kane
Optimization of HCR Gearing Geometry from a Scuffing Point of
View . 365
M. Rackov, M. Vereš, M. Čavić, M. Penčić, Ž. Kanović, S. Kuzmanović
and I. Knežević
Problems of Developing the Model of Class of Objects in Intelligent
CAD of Gearbox Systems 393
O. Malina
Approximated Rod-Toothed Gears 419
B. Timofeev and M. Sachkov
Planetary Rotor Hydraulic Machine with Two Central
Gearwheels Having Similar Tooth Number . 435
G. Volkov and D. Kurasov
Aspects of Optimization of the Process of Computer-Aided
Design of Complex Objects 447
O. Malina and O. Valeyev
viii ContentsEfficient Schemes and Methods for Gear Machining
of Spiroid Gearwheels and Worms 465
E. Trubachev, S. Loginov, K. Bogdanov, D. Khvatov and A. Shutkina
Influence of Layout Features and Parameters of a Planetary
Gear on Its Dynamics and Strength Characteristics . 481
F. Plekhanov, A. Pushkarev and I. Pushkarev
Index
Index
A
Abrasive wheel, 305, 306
Approximated gears, 419
Archimedean worm, 322
B
Bevel biplanetary gear, 290, 291, 298
Bevel gear, 28, 29, 31, 34, 35, 37, 43, 44
C
Closed loop, 168, 174, 175, 186, 196, 201,
203, 204
CnC manufacturing, 168, 204
Complex object, 393, 394, 416
Compliance, 118, 120, 124, 126, 128, 129, 133
Computer-aided engineering, 75, 77
Coniflex, 168, 179, 185, 191, 197
Contact fractures, 206, 219
Contact localization, 331, 338, 342
Curved path of contact, 256, 258, 260, 261,
267, 268
Cyclic and dynamic loads, 205
Cylindrical single-thread, 319
D
Depth contact fracture, 208
Design, 29, 32, 34, 44
Dynamics, 481, 486, 493
E
Effective volume, 435
Elastic and plastic contact, 46, 64
Empiric forbidden figures, 448, 450, 457
Equilibrium equations, 293, 300
Expanding of channels., 436, 437, 439, 441,
443, 444, 446
F
Face gear, 28, 29, 32
Family of functions, 454–458
Finite element analysis, 1
Flash temperature criterion, 377
Floating satellites, 436, 439, 443
Fly-cutter, 331–333
Forbidden version, 447–449, 451, 456
Functional forbidden figures, 448–450, 453,
454, 456–459, 461
G
Gear, 74, 77–81, 83–87, 89, 168, 169, 172,
176, 178, 180, 181, 183, 187, 188, 190,
191, 204, 221–223, 226–228, 232–234,
236–239, 241–243, 245, 246, 250–253,
271–274, 277–286
Gear design, 332, 336
Gear geometry, 1, 2, 9, 16–19
Geometric descriptor, 232–234, 236–243, 246,
252, 253
Geometry of meshing, 236, 240
Graph model, 402, 405
Graph-table, 410, 411
Grinding, 305–307, 310–313, 315, 316, 323,
324
H
Hardened surface layers, 208, 219
HCR involute gearing, 365, 378–380, 382,
384–387, 389, 390
 Springer International Publishing Switzerland 2018
V. Goldfarb et al. (eds.), Advanced Gear Engineering,
Mechanisms and Machine Science 51, DOI 10.1007/978-3-319-60399-5
495Helical surface, 305, 306, 310, 311, 313, 319,
320, 324
Hob, 141–156, 158–162, 327, 331–333, 335,
336, 338, 341
Hyperboloid gears, 92–94, 96, 98–102, 107,
110, 112, 115
I
Induced stress, 34, 35
Inertial force, 489, 492
Innovation development of production,
272–276, 278, 283–285
Integral temperature criterion, 377, 378, 386,
391
Involute worm, 306, 322, 323
L
Load-carrying capacity, 206, 208, 216, 219,
220
Load distribution, 117, 118, 121, 124,
127–130, 132, 135, 137
Loading, 206, 210–212, 219
Localization of bearing contact, 142, 152, 154,
162, 165
Longitudinal and profile modification, 140, 142
LTCA, 45
M
Machine-tool meshing, 241, 247, 251
Manufacture and assembly errors, 419
Manufacturing, 28
Manufacturing errors, 1–3, 6, 9–11, 13–22
Mathematical modeling, 92–94, 96, 99, 111,
115
Matrix, 411, 412, 416
Mechanical drive, 221, 228
Meshing zone, 77, 81, 83, 85, 89
Methods for development of the generalized
model
graphs, 402, 408, 411
Model of the process of structural synthesis.,
447–455, 457, 458, 460, 461
Multi-pair heavy-loaded gear, 45, 46
N
Noise, 222, 223, 227, 228
O
Optimization, 369, 373, 387, 390
Optimization of requirements for accuracy of
base surfaces for spur and helical
gearwheels, 345, 363
Optimization of the process of synthesis, 448,
449, 451, 454, 463
P
Parameters of accuracy of base surfaces for
spur and helical gearwheels, 351, 352
Parameters of tooth accuracy for spur and
helical gearwheels, 345, 346
Phantom, 402, 416
Pitch configurations, 94, 96, 98, 99, 102, 103,
105–108, 110, 112, 113, 115
Planetary gear, 117, 128, 132, 135, 481, 482,
484, 486, 489, 490, 492, 493
Planetary rotor hydraulic machine, 436–439,
441, 443, 445
Polymer gears, 263, 265, 268
Principle of emergency, 394
Principle of modularity, 394
Principle of sufficiency, 394
Q
Quality characteristics, 74, 77, 78, 81, 83, 85,
89
Quality criteria, 221, 228
R
Rod-toothed wheels and gears, 420, 425, 427,
434
Rolling bearings, 206, 210, 220
S
Scuffing, 367–369, 374–377, 381, 384–391
S-gears, 257, 258, 260, 262–265, 267, 268
Simulation, 168, 169, 172, 173
Sliding, 256, 257, 260–262, 268
Spiral-bevel, 168, 172, 173, 176, 181, 190,
198, 201
Spiroid gear, 465–467, 470
Spur gears, 8, 9, 11, 13, 14
Statistical analysis of influence of errors of base
surfaces for blanks on the accuracy of
gearwheel teeth at their cutting
Straight-bevel, 168, 172, 178, 181, 187
Strength, 481, 482, 485, 486, 489, 490, 493
Structural synthesis of complex objects, 447
Surface integrity, 28, 37
Synthesis
T
Table, 404, 408, 411
Teaching gears in technical universities, 272,
274, 275, 284
Theory of generation, 241, 242
Tooth contact analysis, 1
Tooth cutting, 466–468, 472
496 Index Transmission function, 425, 427, 430, 433, 434
Transmission gear ratio, 302
V
Vibration, 222, 223, 226–228
W
Way of fracture, 206, 210, 215, 217
Willis equation, 291, 298, 302
Worm gear
Index 497
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