International Conference on Gears 2017

doi:10.51202/9783181022948

International Conference on Gears 2017

2 Bände

Series: VDI-Berichte

Volume 2294 1. Edition 2017

Partial access

doi.org/10.51202/9783181022948
ISBN print: 978-3-18-092294-2
ISBN online: 978-3-18-102294-8
VDI Verlag, Düsseldorf VDI Verlag, Düsseldorf

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Zusammenfassung

Talking about the design of modern high-performance power train applications, one of the essential components to focus on are the gears. Gears convert torque and speed in a very wide power range, at low cost and with minimal losses and noise emission. However, the demands regarding cost, power density, NVH-behavior and efficiency are steadily increasing. Demands, which can only be met using modern gearing technologies that allow combining individual materials, heat treatment and manufacturing processes. Particularly in the industrial sector, the requirements for the reliability and service life of the gear units have increased. Therefore, more and more accurate calculation methods are required for the load bearing capacity, life expectancy and failure probability as well as better test methods. This aspect is also becoming more important with regard to Industry 4.0 and Predictive Maintenance. In addition, the potentials of innovative production methods like powder metal sintering, plas...

Schlagworte

Antriebsstrang Getriebe Komponenten NVH-Verhalten Service Sicherheit Test Methoden power train applications gears NVH-Behavior power density high performance gears service reliability test methods predictive maintenance load bearing capacity powder metal sintering plastic molding

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I–XXVII Titelei/Inhaltsverzeichnis I–XXVII
1–1208 International Conference on Gears 2017 1–1208
- 1–4 Foreword 1–4
- 5–50 Gear Endurance – Tribology and Material 5–50
  - 5–16 Simulation of gear wear using a dynamic load distribution model D. Talbot, A. Kahraman D. Talbot, A. Kahraman 5–16
  - 17–28 Self-lubricating gears with oil-impregnated sintered materials M. Ebner, T. Lohner, K. Michaelis, B.-R. Höhn, K. Stahl M. Ebner, T. Lohner, K. Michaelis, B.-R. Höhn, K. Stahl 17–28
  - 29–40 Simulation and test method for the lubricant’s influence on the wear and fatigue mechanisms on tooth flanks L. Gondecki, M. Weibring, P. Tenberge L. Gondecki, M. Weibring, P. Tenberge 29–40
  - 41–50 Change of gear steel quality as function of globalization – Back ground of the development for high speed automatic hardness tester A. Kubo A. Kubo 41–50
- 51–96 Planetary Gear Systems – Design and Analysis 51–96
  - 51–60 Holistic simulation of gearboxes – system simulation S. Grützner S. Grützner 51–60
  - 61–74 Design of cycloid planetary gear drives with tooth number difference of two – a comparative study on contact characteristics and load analysis S.-J. Tsai, L.-C. Chang, C.-H. Huang S.-J. Tsai, L.-C. Chang, C.-H. Huang 61–74
  - 75–82 Finite element method based analysis of planetary gear systems considering backlash and manufacturing deviations A. Mihailidis, G. Korbetis, N. Drivakos, I. Nerantzis A. Mihailidis, G. Korbetis, N. Drivakos, I. Nerantzis 75–82
  - 83–96 Tooth contact analysis under load on double helical-geared planetary gearboxes B. Schlecht, T. Schulze, K. Riedel B. Schlecht, T. Schulze, K. Riedel 83–96
- 97–142 Applications – Electrified Power Train 97–142
  - 97–108 Design and experimental validation on a novel tow speed transmission for electric bus J. Yu, L. Yao, C. Ren, X. Yan, L. Lin J. Yu, L. Yao, C. Ren, X. Yan, L. Lin 97–108
  - 109–118 Electrical stress and parasitic currents in machine elements of drive trains with voltage source inverters A. Furtmann, G. Poll A. Furtmann, G. Poll 109–118
  - 119–130 Validation approach of PM gears for eDrive applications B. Leupold, V. Janzen, G. Kotthoff, D. Eichholz B. Leupold, V. Janzen, G. Kotthoff, D. Eichholz 119–130
  - 131–142 Research on the dynamic power split characteristics and the electric power coordinated control for a hybrid transmission system W. Wang, L. Han, Q. Yan, C. Xiang, Y. Li W. Wang, L. Han, Q. Yan, C. Xiang, Y. Li 131–142
- 143–184 Gear Endurance – Micropitting and Tooth Flank Properties 143–184
  - 143–152 Practical use of micropitting test results according to FVA 54/7 for calculation of micropitting load capacity acc. to ISO/TR 15144-1 N. Sagraloff, M. Hein, T. Tobie, K. Stahl N. Sagraloff, M. Hein, T. Tobie, K. Stahl 143–152
  - 153–162 Shot peening of gear tooth flanks: Search for an optimal surface topography against the micropitting D. Ghribi, C. Peyrac, M. Octrue D. Ghribi, C. Peyrac, M. Octrue 153–162
  - 163–172 Isotropic superfinishing of high hardness steels – How using a custom REM ISF® process as a quality control, defect remediation, and isotropic superfinishing procedure can increase the performance of... M. McCormick, J. Michaud M. McCormick, J. Michaud 163–172
  - 173–184 Investigation on the flank surface durability of gears with increased pressure angle C. Weber, T. Tobie, K. Stahl C. Weber, T. Tobie, K. Stahl 173–184
- 185–230 Planetary Gear Systems – NVH Behavior 185–230
  - 185–196 Topographical tooth modifications in planetary gears for reduction of the noise excitation without load capacity loss – Optimization of complex systems capable of oscillation J. W. Vriesen J. W. Vriesen 185–196
  - 197–208 Investigating dynamic behavior of planetary gear trains through the systematic approach S. Stoyanov, V. Dobrev, A. Dobreva S. Stoyanov, V. Dobrev, A. Dobreva 197–208
  - 209–218 The iterative spectral method for computing the planetary gear dynamic response J. Neufond, Y. Xu, J. Perret-Liaudet, E. Rigaud J. Neufond, Y. Xu, J. Perret-Liaudet, E. Rigaud 209–218
  - 219–230 The influence of mesh misalignment on planetary gear set with time-varying mesh stiffness S. T. Ping, Y. M. Shao, L. M. Wang, H. W. Li, J. Xu, Y. Cheng, J. Liu S. T. Ping, Y. M. Shao, L. M. Wang, H. W. Li, J. Xu, Y. Cheng, J. Liu 219–230
- 231–280 Applications 231–280
  - 231–242 Thrust cone bearings provide increased efficiency for helical gear units at moderate speed levels – Indications for possible energy saving potential in an expanded field of application A. Lohrengel, M. Heß A. Lohrengel, M. Heß 231–242
  - 243–252 Evaluation of developed micro-gear endurance test system and basic study on load-carrying characteristics of micro-spur-gears M. Takahashi, T. Itagaki, N. Maeda, H. Takahashi M. Takahashi, T. Itagaki, N. Maeda, H. Takahashi 243–252
  - 253–266 Influential criteria on the optimization of a gearbox, with application to an automatic transmission P. Tenberge, D. Kupka, T. Panéro P. Tenberge, D. Kupka, T. Panéro 253–266
  - 267–280 Kinematic classification of a gearbox comprising separate thrusted teeth and its advantages regarding existing approaches H. Schreiber, T. Röthlingshöfer H. Schreiber, T. Röthlingshöfer 267–280
- 281–318 Gear Endurance – Damage Initiation and Propagation 281–318
  - 281–292 Crack propagation analysis of pitting damages of high-strength material systems in gear applications C. Brecher, C. Löpenhaus, F. Goergen, D. Mevissen C. Brecher, C. Löpenhaus, F. Goergen, D. Mevissen 281–292
  - 293–304 Simulation and measurement of tooth flank deviations on bevel gears caused by pitting and micro pitting B. Schlecht, F. Müller, S. Schumann B. Schlecht, F. Müller, S. Schumann 293–304
  - 305–318 Simulation of fatigue failure on tooth flanks in consideration of pitting initiation and growth M. Weibring, L. Gondecki, P. Tenberge M. Weibring, L. Gondecki, P. Tenberge 305–318
- 319–352 Planetary Gear Systems – Efficiency and Strength 319–352
  - 319–330 Smashing the efficiency barrier – A practical comparison of planetary and orbitless gear-heads L. J. Stocco, R. Gloeckner L. J. Stocco, R. Gloeckner 319–330
  - 331–340 Development of novel test stand for three-axis driving planetary gear train control and analysis of novel PGT for noise reduction M. Nakagawa, D. Nishida, D. Sah, T. Hirogaki M. Nakagawa, D. Nishida, D. Sah, T. Hirogaki 331–340
  - 341–352 Effects of external splines on deformations of ring gears of planetary gear sets A. Kahraman, H. Ligata A. Kahraman, H. Ligata 341–352
- 353–394 Worm and Crossed Helical Gears – Simulation 353–394
  - 353–362 Comprehensive simulation methods for crossed helical gear sets with the main focus on the calculation of contact patterns P. Norgauer, W. Sigmund, D. Kadach, K. Stahl P. Norgauer, W. Sigmund, D. Kadach, K. Stahl 353–362
  - 363–372 A new standardizable calculation method to predict the efficiency of worm gear drives M. Oehler, B. Magyar, B. Sauer M. Oehler, B. Magyar, B. Sauer 363–372
  - 373–394 Computation of the tooth root strength of Worm Wheels with a calculation program based on local stresses J. Reißmann, E. Leidich J. Reißmann, E. Leidich 373–394
- 395–432 Gear Endurance – Stress and Material Properties 395–432
  - 395–398 Flank fracture assessment under consideration of material quality J.-A. Meis J.-A. Meis 395–398
  - 399–410 “Alternative” microstructures and their influence on mechanical properties of case-hardened gears C. Güntner, T. Tobie, K. Stahl C. Güntner, T. Tobie, K. Stahl 399–410
  - 411–420 Tooth profiles design and stress analysis of double helical gear transmissions with geometric elements constructed tooth pairs D. Liang, B. Chen, R. Tan, C. Li D. Liang, B. Chen, R. Tan, C. Li 411–420
  - 421–432 Influence of surface layer properties on tooth root bending strength of cylindrical gears C. Brecher, C. Löpenhaus, J. Pollaschek C. Brecher, C. Löpenhaus, J. Pollaschek 421–432
- 433–466 Bevel Gears 433–466
  - 433–434 Global synthesis of speed increasing spiral bevel and hypoid gears P. Wang, M. Yang, Y. Guan, Z. Yang, Q. Li P. Wang, M. Yang, Y. Guan, Z. Yang, Q. Li 433–434
  - 435–446 Influence analysis of system parameters on characteristics of the nutation drive with double circular arc spiral bevel gears Y. Cai, L. Yao, Z. Xie, J. Zhang, C. Peng Y. Cai, L. Yao, Z. Xie, J. Zhang, C. Peng 435–446
  - 447–456 Optimizing tooth proportions to improve topland Saribay balance in aerospace bevel gears E. Erkilic, Z. Burcay E. Erkilic, Z. Burcay 447–456
  - 457–466 Tooth contact analysis of a new type of face gear drive L. Liu L. Liu 457–466
- 467–516 Worm Gears – Design and Quality 467–516
  - 467–478 New tolerance concepts for the realization of steel-only worm gears R. Müller, L. Schirmer R. Müller, L. Schirmer 467–478
  - 479–490 Technical guideline for the quality determination of bronze B. Sievers, M. Berger, J. Hermes B. Sievers, M. Berger, J. Hermes 479–490
  - 491–502 Design of transmission accuracy of the involute cylindrical gear-worm gear system under large temperature difference based on FE method Y. Wang, B. Peng, G. Liu, L. Liu Y. Wang, B. Peng, G. Liu, L. Liu 491–502
  - 503–516 The development of worm drives J. J. Liou, S. Rakuff J. J. Liou, S. Rakuff 503–516
- 517–552 NVH Behavior – Noise 517–552
  - 517–526 Computing and minimizing the whining noise – Application to a bogie gearbox A. Carbonelli, J.-Y. Guerder A. Carbonelli, J.-Y. Guerder 517–526
  - 527–538 Study of vibration for spur gears of tooth profile modification and experimental validation of modification method C. Zhang, H. Liu, C. W. Yao, Y. Li C. Zhang, H. Liu, C. W. Yao, Y. Li 527–538
  - 539–552 Optimization of NVH behavior of gears by alternative gear materials C. Brecher, C. Löpenhaus, M. Schroers, T. Frech, P. Scholzen C. Brecher, C. Löpenhaus, M. Schroers, T. Frech, P. Scholzen 539–552
- 553–590 Beveloid Gears 553–590
  - 553–564 Potential of free flank modifications for beveloid gears C. Brecher, C. Löpenhaus, J. Brimmers C. Brecher, C. Löpenhaus, J. Brimmers 553–564
  - 565–578 Method for the pre-dimensioning of beveloid gears – Efficient design of main gearing data T. Schöler, H. Binz, M. Bachmann T. Schöler, H. Binz, M. Bachmann 565–578
  - 579–590 Beveloid gears in planetary gear trains for increased Grundström, power density and reduced backlash Stensson, H. Hansson, H. Alm, A. Eng, M. Olsson H. Hansson, H. Alm, A. Eng, M. Olsson 579–590
- 591–622 Magnetic Gears 591–622
  - 591–602 A novel magnetic angular transmission S. Vonderschmidt, A. Vonderschmidt, R. Vonderschmidt S. Vonderschmidt, A. Vonderschmidt, R. Vonderschmidt 591–602
  - 603–614 Geometric modeling and torque analysis of the magnetic nutation gear drive D. Huang, L. Yao, W. Li, J. Zhang D. Huang, L. Yao, W. Li, J. Zhang 603–614
  - 615–622 Reluctance magnetic gear – Magnetic gears, no longer toothless A. Şorea, F. Buus Bendixen A. Şorea, F. Buus Bendixen 615–622
- 623–668 NVH Behavior – Dynamic Behavior 623–668
  - 623–634 Hybrid dynamic model of hollow thin-rimmed gears B. Guilbert, P. Cutuli, P. Velex B. Guilbert, P. Cutuli, P. Velex 623–634
  - 635–648 Prediction of the vibroacoustic response of an electric window-lift gear motor E. Rigaud, P.-H. Cornuault, B. Bazin, E. Grandais-Menant E. Rigaud, P.-H. Cornuault, B. Bazin, E. Grandais-Menant 635–648
  - 649–658 A simulation approach to calculate gear dynamic-factors for high-speed applications S. Jain, B. James S. Jain, B. James 649–658
  - 659–668 Investigations on the influence of anisotropic material properties of gear teeth on their macroscopic behavior B. Schlecht, C. Ulrich, J. Bräunig B. Schlecht, C. Ulrich, J. Bräunig 659–668
- 669–718 Hypoid Gears 669–718
  - 669–682 Prediction of plastic deformation in hypoid gears T. Aoyama, H. Inokura, Y. Shibata T. Aoyama, H. Inokura, Y. Shibata 669–682
  - 683–694 Elastic deformation of a hypoid gearbox – Measurements on a static test rig to validate the calculated elastic deformation behavior M. Daffner, M. Otto, K. Stahl M. Daffner, M. Otto, K. Stahl 683–694
  - 695–706 Evaluation of gear noise behaviour with application force level T. Utakapan, B. Kohn, M. Fromberger, M. Otto, K. Stahl T. Utakapan, B. Kohn, M. Fromberger, M. Otto, K. Stahl 695–706
  - 707–718 Determination and improvement of bevel gear efficiency by means of loaded TCA J. Thomas, C. Wirth J. Thomas, C. Wirth 707–718
- 719–768 Gear Endurance – Geometry 719–768
  - 719–732 High load capacity gear root fillet contour with a bézier curve Z. Roth, J. Opferkuch Z. Roth, J. Opferkuch 719–732
  - 733–740 The effect on tooth root breakage strength of tooth root shapes resulting from differing hobbing conditions R. Saito, Y. Suzuki, K. Matsuo R. Saito, Y. Suzuki, K. Matsuo 733–740
  - 741–750 Root fillet optimization of thin rim planet gears with asymmetric teeth A. L. Kapelevich, Y. V. Shekhtman A. L. Kapelevich, Y. V. Shekhtman 741–750
  - 751–768 Geometry, pitting and tooth root capacity of asymmetric gears D. Krüger, E. Leidich, I. Römhild, R. Heß, H. Linke D. Krüger, E. Leidich, I. Römhild, R. Heß, H. Linke 751–768
- 769–814 Load-sharing – Load Distribution 769–814
  - 769–782 Research on multiple-split load sharing characteristics of 2-stage external meshing star gearing system M. Shuai, M. Shuai, J. Guoguang, Z. Yidu, L. Chao, H. Haruo M. Shuai, M. Shuai, J. Guoguang, Z. Yidu, L. Chao, H. Haruo 769–782
  - 783–794 Load distribution in planetary gears considering effects of manufacturing tolerances with a statistical approach J. Papies J. Papies 783–794
  - 795–806 Load sharing model for spur gears with tip relief – An investigation on the influence of profile modifications on the mesh stiffness J. I. Pedrero, M. Pleguezuelos, M. B. Sánchez J. I. Pedrero, M. Pleguezuelos, M. B. Sánchez 795–806
  - 807–814 Mesh stiffness of cylindrical gear including tooth surface – Friction based on FEA method L. Geng, N. Mimi, L. Lan, Z. Ying, W. Liyan L. Geng, N. Mimi, L. Lan, Z. Ying, W. Liyan 807–814
- 815–844 Non-involute Tooth Profiles 815–844
  - 815–824 A strain wave gearing with a new profile of teeth S. Ishikawa, Y. Murayama, S. Kishi S. Ishikawa, Y. Murayama, S. Kishi 815–824
  - 825–834 Non-standard spur gear tooth profiles for improved epicyclic gear system performance in low speed applications E. Chiappetta, D. Morrey E. Chiappetta, D. Morrey 825–834
  - 835–844 Curvature interference characteristic of conical surface Enveloping Spiroid Y. Zhao Y. Zhao 835–844
- 845–880 Condition Monitoring and Diagnostic 845–880
  - 845–856 Gear diagnostic system using zonal laser beam for practical use E. Tanaka, H.-C. Lin E. Tanaka, H.-C. Lin 845–856
  - 857–868 Estimation of loaded static transmission error using vibration measurement under operating conditions in a two-stage helical gear reducer T. Nagumo, M. Ishizuka, Y. Satou, S. Matsumura, H. Houjoh T. Nagumo, M. Ishizuka, Y. Satou, S. Matsumura, H. Houjoh 857–868
  - 869–880 Print of crack detection sensor for spur gears by laser sintering of conductive ink D. Iba, S. Futagawa, T. Kamimoto, M. Nakamura, N. Miura, T. Iizuka, A. Masuda, A. Sone, I. Moriwaki D. Iba, S. Futagawa, T. Kamimoto, M. Nakamura, N. Miura, T. Iizuka, A. Masuda, A. Sone, I. Moriwaki 869–880
- 881–926 Efficiency 881–926
  - 881–892 Numerical modeling of the churning power losses of gears: an innovative 3D computational tool suitable for planetary gearbox simulation F. Concli, C. Gorla F. Concli, C. Gorla 881–892
  - 893–904 Improved calculation method for load-dependent gear losses T. Jurkschat, T. Lohner, K. Stahl T. Jurkschat, T. Lohner, K. Stahl 893–904
  - 905–916 General modelling method of power losses in transmission with parameter identification Y. Shen, S. Rinderknecht, M. Hoppert Y. Shen, S. Rinderknecht, M. Hoppert 905–916
  - 917–926 Thermal analysis and optimization of gearboxes by simulation B. Bauer, R. Hambrecht, A. Kube B. Bauer, R. Hambrecht, A. Kube 917–926
- 927–962 Transmission Error 927–962
  - 927–938 Robust optimization of gear macro and micro-geometries in order to minimize static transmission error and gear stiffness fluctuations P. Garambois, E. Rigaud, J. Perret-Liaudet P. Garambois, E. Rigaud, J. Perret-Liaudet 927–938
  - 939–952 The influence of overlap ratio on transmission error in parallel axis gears L. Zhao, R. C. Frazer, B. A. Shaw L. Zhao, R. C. Frazer, B. A. Shaw 939–952
  - 953–962 Simultaneous experimental characterization of dynamic transmission error to noise and vibration behavior of a gear system under load J. Champain, S. Dalle, M. Octrue J. Champain, S. Dalle, M. Octrue 953–962
- 963–1002 Materials 963–1002
  - 963–976 Development and investigation of austempered ductile iron (ADI) for thick-walled gear components J. Lohmiller, J. Hoffmeister, J. Hermes, M. Ansorg, H. Dhonau J. Lohmiller, J. Hoffmeister, J. Hermes, M. Ansorg, H. Dhonau 963–976
  - 977–988 Austempered Ductile Iron (ADI) for gears: manufacturing, performances and tests C. Gorla, E. Conrado, F. Rosa, F. Concli C. Gorla, E. Conrado, F. Rosa, F. Concli 977–988
  - 989–1002 Prediction of local load carrying capacity for gears – a materials science approach M. Schwenk, J. Hoffmeister, J. Hermes M. Schwenk, J. Hoffmeister, J. Hermes 989–1002
- 1003–1050 Quality / Measurement 1003–1050
  - 1003–1014 Grinding burn inspection – tools for supervising and objectifying of the testing process M. W. Seidel, A. Zösch, K. Härtel M. W. Seidel, A. Zösch, K. Härtel 1003–1014
  - 1015–1024 Automatic geometry segmentation of involute flank regions A. von Freyberg, A. Fischer A. von Freyberg, A. Fischer 1015–1024
  - 1025–1038 Paradigm change in cylindrical gear metrology using areal measurement and evaluation G. Goch, K. Ni, Y. Peng, A. Günther G. Goch, K. Ni, Y. Peng, A. Günther 1025–1038
  - 1039–1050 Non-contact measurement of 3D tooth flank form accuracy of bevel gears on 5-axis machining center K. Kanto, T. Yamada, S. Komatsu, J. Morishita, I. Yamaji, A. Kubo K. Kanto, T. Yamada, S. Komatsu, J. Morishita, I. Yamaji, A. Kubo 1039–1050
- 1051–1100 Reliability 1051–1100
  - 1051–1062 The documentation of gearbox reliability – an upcoming demand U. Kissling, M. Stangl U. Kissling, M. Stangl 1051–1062
  - 1063–1072 Estimation of remaining useful life of gears with uncertainties in loading and material parameters H. B. Endeshaw, S. Ekwaro-Osire, F. M. Alemayehu, J. P. Dias H. B. Endeshaw, S. Ekwaro-Osire, F. M. Alemayehu, J. P. Dias 1063–1072
  - 1073–1084 Test method for time-scaled fatigue tests of gear transmission systems M. Hein, T. Tobie, K. Stahl M. Hein, T. Tobie, K. Stahl 1073–1084
  - 1085–1100 Reliability safeguarding for an 8 MW wind energy gearbox in serial production – Prototype and process development ensuring stable quality at the highest level D. Strasser, S. Troll, R. Sperlich, J. Münch D. Strasser, S. Troll, R. Sperlich, J. Münch 1085–1100
- 1101–1208 Poster Exhibition 1101–1208
  - 1101–1108 Efficiency evaluation of multi-speed transmission F. Yang, W. Bi F. Yang, W. Bi 1101–1108
  - 1109–1112 An improved lifetime prediction technique for plastic gears through finite element analysis and continuum damage mechanics A. K. Shojaei, P. Volgers A. K. Shojaei, P. Volgers 1109–1112
  - 1113–1118 Pentac®Mono-RT high performance face milling cutter heads H. J. Stadtfeld H. J. Stadtfeld 1113–1118
  - 1119–1126 Experimental measurement of gears impact in transmission O. Berka, M. Dub, F. Lopot O. Berka, M. Dub, F. Lopot 1119–1126
  - 1127–1132 Development of a test rig for transmission performances of precision planetary reducer C. Peng, C. Li, B. Chen C. Peng, C. Li, B. Chen 1127–1132
  - 1133–1138 Friction loss and surface durability of WN gears – A Comparison with involute gears R. Nemoto, E. Tamura, N. Seyama, E. Tanaka R. Nemoto, E. Tamura, N. Seyama, E. Tanaka 1133–1138
  - 1139–1144 Load carrying capacity of crossed helical gears with high contact ratio E. Tamura, R. Nemoto, N. Seyama, E. Tanaka E. Tamura, R. Nemoto, N. Seyama, E. Tanaka 1139–1144
  - 1145–1152 Is the mean stress effect for shafts dependent on the geometry, material or load? B. Schlecht, K. Neikes, E. Leidich, S. Hauschild B. Schlecht, K. Neikes, E. Leidich, S. Hauschild 1145–1152
  - 1153–1160 A compensation method of tooth surface error in continuous generating grinding based on the virtual-axis X. Kai, L. Guolong X. Kai, L. Guolong 1153–1160
  - 1161–1168 Casing stiffness variations and influence on the gear meshing properties J. Langhart, I. Zotos, G. Franzoso J. Langhart, I. Zotos, G. Franzoso 1161–1168
  - 1169–1176 Comparative analysis of few new procedures for spur gears tooth profile optimization with different methods and aspects I. Atanasovska, H. Abderazek I. Atanasovska, H. Abderazek 1169–1176
  - 1177–1184 Modelling of a gear-rotor system considered tooth contact temperature and its dynamic characteristics X. Gou, L. Zhu, C. Qi X. Gou, L. Zhu, C. Qi 1177–1184
  - 1185–1190 Traction drive analysis identified with rheological friction property of traction fluid T. Saito, K. Miyamoto T. Saito, K. Miyamoto 1185–1190
  - 1191–1198 A reduced order internal combustion engine model for transmission development K. Togai, N. Fujinaga K. Togai, N. Fujinaga 1191–1198
  - 1199–1208 Prediction of heat generation in transmission bearings by application of FEM A. Miltenović, M. Banić, Ž. Mišković, R. Mitrović, V. Miltenović A. Miltenović, M. Banić, Ž. Mišković, R. Mitrović, V. Miltenović 1199–1208
1209–1462 Conference on Gear Production 2017 1209–1462
- 1209–1250 Intelligent Gear Production 1209–1250
  - 1209–1218 Cyber physical gear production system – Vision of industry 4.0 gear production M. Brumm, H. Müller M. Brumm, H. Müller 1209–1218
  - 1219–1234 IoT and I4.0: electronic live tool integrated monitoring (eltimon) K.-H. Schoppe K.-H. Schoppe 1219–1234
  - 1235–1246 Gear Data Exchange (GDE) – goLive H. Yakaria H. Yakaria 1235–1246
  - 1247–1250 Production cells in transition B. Winter B. Winter 1247–1250
- 1251–1298 Potential of Powder Metallurgy (PM) Process Chains 1251–1298
  - 1251–1264 Sustainability-conscious Powder Metallurgy gear manufacturing – An analysis of current manufacturing challenges B. Kianian, C. Andersson B. Kianian, C. Andersson 1251–1264
  - 1265–1276 Influence of the contact conditions in cold rolling on the density profile of powder metallurgical (PM) gears T. Frech, C. Löpenhaus, F. Klocke T. Frech, C. Löpenhaus, F. Klocke 1265–1276
  - 1277–1288 PM gear rolling simulations using advanced plasticity material model and improved initial conditions V. Angelopoulos, M. Hirsch V. Angelopoulos, M. Hirsch 1277–1288
  - 1289–1298 PM technology for the future powertrain P. Kauffmann, P. Schäflein, V. Heuer P. Kauffmann, P. Schäflein, V. Heuer 1289–1298
- 1299–1330 Manufacturing Related Product Properties 1299–1330
  - 1299–1306 Multi-component gearwheels and their manufacturing processes R. Meissner, M. Liewald, T. Benkert, M. Hiller, W. Volk R. Meissner, M. Liewald, T. Benkert, M. Hiller, W. Volk 1299–1306
  - 1307–1318 A procedure to find best fitting dresser with grinding worm for a new design M. F. Stangl, U. Kissling, A. Pogacnik M. F. Stangl, U. Kissling, A. Pogacnik 1307–1318
  - 1319–1330 Flank modifications for optimal excitation behaviour B. Kohn, T. Utakapan, M. Fromberger, M. Otto, K. Stahl B. Kohn, T. Utakapan, M. Fromberger, M. Otto, K. Stahl 1319–1330
- 1331–1378 Advances in Cylindrical Gear Production 1331–1378
  - 1331–1342 Accuracy analysis of workpiece and tool in the hobbing process using Taguchi Method K. Matsuo, Y. Suzuki, K. Fujiki K. Matsuo, Y. Suzuki, K. Fujiki 1331–1342
  - 1343–1352 CnC manufacturing of circular faced cylindrical gears C. Gosselin, E. Fritz, L. Seiler C. Gosselin, E. Fritz, L. Seiler 1343–1352
  - 1353–1364 Grinding or shaving? – Performance based economic decision support in the manufacturing of gears C. Andersson C. Andersson 1353–1364
  - 1365–1378 Approach for modeling grinding worm wear M. Ophey, F. Klocke, C. Löpenhaus M. Ophey, F. Klocke, C. Löpenhaus 1365–1378
- 1379–1414 Advances in Bevel Gear Production 1379–1414
  - 1379–1390 Contact pattern control with simple cutter motion in face-milling of zerol bevel gears using 5-axis machine I. Moriwaki, R. Kikuchi, D. Iba, M. Nakamura, M. Nagatsuka I. Moriwaki, R. Kikuchi, D. Iba, M. Nakamura, M. Nagatsuka 1379–1390
  - 1391–1402 Surface structure shift for ground bevel gears E. Böyükbaş, H. J. Stadtfeld E. Böyükbaş, H. J. Stadtfeld 1391–1402
  - 1403–1414 Experimental studies and simulation of hypoid gear lapping B. Schlecht, F. Rudolph, S. Schumann B. Schlecht, F. Rudolph, S. Schumann 1403–1414
- 1415–1462 Innovative Materials and Treatments 1415–1462
  - 1415–1426 Effect of alloying elements on edge part over-carburizing in vacuum carburizing K. Tsujii, R. Ishikura, K. Inoue, Y. Tanaka, T. Morita K. Tsujii, R. Ishikura, K. Inoue, Y. Tanaka, T. Morita 1415–1426
  - 1427–1438 Influence of the grinding process on the formation of boundary layers on gears C. Brecher, C. Löpenhaus, R. Greschert C. Brecher, C. Löpenhaus, R. Greschert 1427–1438
  - 1439–1450 Adaptive coatings on gears for NVH improvement G. Eitzinger G. Eitzinger 1439–1450
  - 1451–1462 An advanced thermal processing & coating process for enhancing gear tribology B. Zhmud, J. Blomkvist, M. Fallström B. Zhmud, J. Blomkvist, M. Fallström 1451–1462
1463–1660 International Conference on High Performance Plastic Gears 2017 1463–1660
- 1463–1472 Possibilities and Potentials of Plastic Gear Applications 1463–1472
  - Design of plastic micro gear teeth for mass production with high manufacturing tolerances for a medical device J. Strüber J. Strüber
- 1473–1518 Tribology of Plastic Gears 1473–1518
  - 1473–1482 Lubrication of plastic worm gears A. Bormuth, J. Zuleeg, C. Schmitz, R. Schmitz, M. Pfadt, H. Meven A. Bormuth, J. Zuleeg, C. Schmitz, R. Schmitz, M. Pfadt, H. Meven 1473–1482
  - 1483–1496 Characterization of TEHL contacts of thermoplastic gears E. Maier, A. Ziegltrum, T. Lohner, K. Stahl E. Maier, A. Ziegltrum, T. Lohner, K. Stahl 1483–1496
  - 1497–1506 Lubricant – Polymer interactions of plastic gears Wahed, M. Scherge, S. Abdel, C. Koplin, R. Jaeger M. Scherge, S. Abdel, C. Koplin, R. Jaeger 1497–1506
  - 1507–1518 Relevant tribological testing method for high performance plastic gears M. Kanters, B. van Wissen, R. Nickel M. Kanters, B. van Wissen, R. Nickel 1507–1518
- 1519–1540 NVH of Plastic Gears 1519–1540
  - 1519–1530 Design investigations and indications for acoustical optimized gear meshes using plastic gears M. Koop, E. Melnikov, V. Merz M. Koop, E. Melnikov, V. Merz 1519–1530
  - 1531–1540 A contribution to the NVH behavior of plastic gears in automotive applications J. Fechler, M. Böhm, S. Aberle, V. Merz J. Fechler, M. Böhm, S. Aberle, V. Merz 1531–1540
- 1541–1574 Comparison of Typical and Future Materials 1541–1574
  - 1541–1552 Measuring permissible root/flank stress of plastic gears according to the VDI 2736-4 A. Pogacnik, S. Beermann A. Pogacnik, S. Beermann 1541–1552
  - 1553–1564 Material data for advanced plastic gear simulation J. Cathelin, R. Janssen J. Cathelin, R. Janssen 1553–1564
  - 1565–1574 Adoption of polymer gears – Challenges and solutions R. Weidig R. Weidig 1565–1574
- 1575–1610 Limits and Chances of Shape and Form 1575–1610
  - 1575–1582 Advanced modeling and experimental techniques for fatigue life prediction of plastic gears A. K. Shojaei, P. Volgers, M. Cassata A. K. Shojaei, P. Volgers, M. Cassata 1575–1582
  - 1583–1592 Influence of the tooth flank shape on thermal load of the gear G. Hlebanja, S. Kulovec, D. Zorko, J. Hlebanja, J. Duhovnik G. Hlebanja, S. Kulovec, D. Zorko, J. Hlebanja, J. Duhovnik 1583–1592
  - 1593–1610 Theoretical investigations of the load distribution of small sized crown gear sets different material pairings M. Baar, P. Oster, T. Tobie, K. Stahl M. Baar, P. Oster, T. Tobie, K. Stahl 1593–1610
- 1611–1660 Load Carriying Capacity of Plastic Gears 1611–1660
  - 1611–1624 Semi-analytical method for the prediction of the flank temperatures of polymer gears during running B. Černe, D. Zorko, J. Duhovnik B. Černe, D. Zorko, J. Duhovnik 1611–1624
  - 1625–1636 Experimental Investigations of Polymer Composite Gear Performance K. Mao, V. Goodship, N. Madhav, R. Ramakrishnan, P. Langlois K. Mao, V. Goodship, N. Madhav, R. Ramakrishnan, P. Langlois 1625–1636
  - 1637–1648 Wear and Fatigue Behaviour of Polymer Gears under Controlled Temperature Conditions M. Kalin, A. Kupec M. Kalin, A. Kupec 1637–1648
  - 1649–1660 Bending strength of oil-lubricated cylindrical plastic gears – Modified bending strength calculation based on VDI 2736 C. Hasl, P. Oster, T. Tobie, K. Stahl C. Hasl, P. Oster, T. Tobie, K. Stahl 1649–1660

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