Simulation Analysis of Influence of Flexible Gear Wall Thickness on Its Performance

The flexible gear is the key parts of harmonic gear reducers,and its performance directly determine the overall condition of harmonic drives. In order to seek the basic law of influence of flexible gears wall thickness on its performance to make use of the law,the influences of flexible gears wall t...

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Main Authors: Yu Feipeng, Zhang Liyong, Wei Leyu, Li Yakang, Liu Yuechan
Format: Article
Language:zho
Published: Editorial Office of Journal of Mechanical Transmission 2018-01-01
Series:Jixie chuandong
Subjects:
Online Access:http://www.jxcd.net.cn/thesisDetails#10.16578/j.issn.1004.2539.2018.07.029
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author Yu Feipeng
Zhang Liyong
Wei Leyu
Li Yakang
Liu Yuechan
author_facet Yu Feipeng
Zhang Liyong
Wei Leyu
Li Yakang
Liu Yuechan
author_sort Yu Feipeng
collection DOAJ
description The flexible gear is the key parts of harmonic gear reducers,and its performance directly determine the overall condition of harmonic drives. In order to seek the basic law of influence of flexible gears wall thickness on its performance to make use of the law,the influences of flexible gears wall thickness on stress and deformation of the flexible gears are simulated and analyzed by ANSYS Workbench software under no-load and load conditions. The results show that,the maximum stress of the flexible gear increases and the maximum deformation decreases with the increase of the wall thickness under no-load condition. With the increase of the wall thickness,under the load condition,the maximum stress decreases overall and the maximum deformation decreases first and then tends to be gentle. Under the same wall thickness,with the increase of the load,the maximum stress and the maximum deformation both enhance and the load is more sensitive to the deformation in the places whose wall thickness are relatively thinner. Under the same conditions,the stress of flexible gear with bottom modification is smaller. This law can provide some reference for researchers.
format Article
id doaj-art-3358c7be99014ac6b518e2be02869cdf
institution Kabale University
issn 1004-2539
language zho
publishDate 2018-01-01
publisher Editorial Office of Journal of Mechanical Transmission
record_format Article
series Jixie chuandong
spelling doaj-art-3358c7be99014ac6b518e2be02869cdf2025-01-10T14:41:19ZzhoEditorial Office of Journal of Mechanical TransmissionJixie chuandong1004-25392018-01-014214715029937375Simulation Analysis of Influence of Flexible Gear Wall Thickness on Its PerformanceYu FeipengZhang LiyongWei LeyuLi YakangLiu YuechanThe flexible gear is the key parts of harmonic gear reducers,and its performance directly determine the overall condition of harmonic drives. In order to seek the basic law of influence of flexible gears wall thickness on its performance to make use of the law,the influences of flexible gears wall thickness on stress and deformation of the flexible gears are simulated and analyzed by ANSYS Workbench software under no-load and load conditions. The results show that,the maximum stress of the flexible gear increases and the maximum deformation decreases with the increase of the wall thickness under no-load condition. With the increase of the wall thickness,under the load condition,the maximum stress decreases overall and the maximum deformation decreases first and then tends to be gentle. Under the same wall thickness,with the increase of the load,the maximum stress and the maximum deformation both enhance and the load is more sensitive to the deformation in the places whose wall thickness are relatively thinner. Under the same conditions,the stress of flexible gear with bottom modification is smaller. This law can provide some reference for researchers.http://www.jxcd.net.cn/thesisDetails#10.16578/j.issn.1004.2539.2018.07.029Flexible gear wall thicknessMaximum stressMaximum deformation
spellingShingle Yu Feipeng
Zhang Liyong
Wei Leyu
Li Yakang
Liu Yuechan
Simulation Analysis of Influence of Flexible Gear Wall Thickness on Its Performance
Jixie chuandong
Flexible gear wall thickness
Maximum stress
Maximum deformation
title Simulation Analysis of Influence of Flexible Gear Wall Thickness on Its Performance
title_full Simulation Analysis of Influence of Flexible Gear Wall Thickness on Its Performance
title_fullStr Simulation Analysis of Influence of Flexible Gear Wall Thickness on Its Performance
title_full_unstemmed Simulation Analysis of Influence of Flexible Gear Wall Thickness on Its Performance
title_short Simulation Analysis of Influence of Flexible Gear Wall Thickness on Its Performance
title_sort simulation analysis of influence of flexible gear wall thickness on its performance
topic Flexible gear wall thickness
Maximum stress
Maximum deformation
url http://www.jxcd.net.cn/thesisDetails#10.16578/j.issn.1004.2539.2018.07.029
work_keys_str_mv AT yufeipeng simulationanalysisofinfluenceofflexiblegearwallthicknessonitsperformance
AT zhangliyong simulationanalysisofinfluenceofflexiblegearwallthicknessonitsperformance
AT weileyu simulationanalysisofinfluenceofflexiblegearwallthicknessonitsperformance
AT liyakang simulationanalysisofinfluenceofflexiblegearwallthicknessonitsperformance
AT liuyuechan simulationanalysisofinfluenceofflexiblegearwallthicknessonitsperformance