Analysis of insulating object plastic injection forming of bicycle dynamo hub power connector

Dyi-Cheng Chen, Chih Hsuan Jao, Chen Kun Huang

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Abstract

Bicycle industry has been an international reputation as bicycle kingdom in Taiwan, but the problem of global warming green energy rise, the development of insulating object of hub dynamo and power output connector to bring new hope to bike industry. In this study connector power output to gather public opinion related to patent, basis of collected documents as basis for design, structural components in least drawn to power output with simple connector. The study objectives connector hoped at structure strongest, highest efficiency in output performance characteristics such as use computer-aided drawing software Solid works to establish power output connector parts of 3D model. A series of simulation analyses, in which the variables relied on Moldflow and ANSYS software forming, which were execution to investigate the effective stress, effective strain, weld line, injection time, injection pressure and filling state of insulating object plastic injection forming of insulating object of bicycle dynamo hub.

Original languageEnglish
Title of host publicationMetal Forming 2014
EditorsLivan Fratini, Fabrizio Micari
PublisherTrans Tech Publications Ltd
Pages791-797
Number of pages7
ISBN (Electronic)9783038351931
DOIs
Publication statusPublished - 2014 Jan 1
Event15th International Conference on Metal Forming 2014 - Palermo, Italy
Duration: 2014 Sep 212014 Sep 24

Publication series

NameKey Engineering Materials
Volume622-623
ISSN (Print)1013-9826

Other

Other15th International Conference on Metal Forming 2014
CountryItaly
CityPalermo
Period14-09-2114-09-24

Fingerprint

Bicycles
Plastics
Global warming
Industry
Welds

All Science Journal Classification (ASJC) codes

  • Materials Science(all)
  • Mechanics of Materials
  • Mechanical Engineering

Cite this

Chen, D-C., Jao, C. H., & Huang, C. K. (2014). Analysis of insulating object plastic injection forming of bicycle dynamo hub power connector. In L. Fratini, & F. Micari (Eds.), Metal Forming 2014 (pp. 791-797). (Key Engineering Materials; Vol. 622-623). Trans Tech Publications Ltd. https://doi.org/10.4028/www.scientific.net/KEM.622-623.791
Chen, Dyi-Cheng ; Jao, Chih Hsuan ; Huang, Chen Kun. / Analysis of insulating object plastic injection forming of bicycle dynamo hub power connector. Metal Forming 2014. editor / Livan Fratini ; Fabrizio Micari. Trans Tech Publications Ltd, 2014. pp. 791-797 (Key Engineering Materials).
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abstract = "Bicycle industry has been an international reputation as bicycle kingdom in Taiwan, but the problem of global warming green energy rise, the development of insulating object of hub dynamo and power output connector to bring new hope to bike industry. In this study connector power output to gather public opinion related to patent, basis of collected documents as basis for design, structural components in least drawn to power output with simple connector. The study objectives connector hoped at structure strongest, highest efficiency in output performance characteristics such as use computer-aided drawing software Solid works to establish power output connector parts of 3D model. A series of simulation analyses, in which the variables relied on Moldflow and ANSYS software forming, which were execution to investigate the effective stress, effective strain, weld line, injection time, injection pressure and filling state of insulating object plastic injection forming of insulating object of bicycle dynamo hub.",
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Chen, D-C, Jao, CH & Huang, CK 2014, Analysis of insulating object plastic injection forming of bicycle dynamo hub power connector. in L Fratini & F Micari (eds), Metal Forming 2014. Key Engineering Materials, vol. 622-623, Trans Tech Publications Ltd, pp. 791-797, 15th International Conference on Metal Forming 2014, Palermo, Italy, 14-09-21. https://doi.org/10.4028/www.scientific.net/KEM.622-623.791

Analysis of insulating object plastic injection forming of bicycle dynamo hub power connector. / Chen, Dyi-Cheng; Jao, Chih Hsuan; Huang, Chen Kun.

Metal Forming 2014. ed. / Livan Fratini; Fabrizio Micari. Trans Tech Publications Ltd, 2014. p. 791-797 (Key Engineering Materials; Vol. 622-623).

Research output: Chapter in Book/Report/Conference proceedingConference contribution

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N2 - Bicycle industry has been an international reputation as bicycle kingdom in Taiwan, but the problem of global warming green energy rise, the development of insulating object of hub dynamo and power output connector to bring new hope to bike industry. In this study connector power output to gather public opinion related to patent, basis of collected documents as basis for design, structural components in least drawn to power output with simple connector. The study objectives connector hoped at structure strongest, highest efficiency in output performance characteristics such as use computer-aided drawing software Solid works to establish power output connector parts of 3D model. A series of simulation analyses, in which the variables relied on Moldflow and ANSYS software forming, which were execution to investigate the effective stress, effective strain, weld line, injection time, injection pressure and filling state of insulating object plastic injection forming of insulating object of bicycle dynamo hub.

AB - Bicycle industry has been an international reputation as bicycle kingdom in Taiwan, but the problem of global warming green energy rise, the development of insulating object of hub dynamo and power output connector to bring new hope to bike industry. In this study connector power output to gather public opinion related to patent, basis of collected documents as basis for design, structural components in least drawn to power output with simple connector. The study objectives connector hoped at structure strongest, highest efficiency in output performance characteristics such as use computer-aided drawing software Solid works to establish power output connector parts of 3D model. A series of simulation analyses, in which the variables relied on Moldflow and ANSYS software forming, which were execution to investigate the effective stress, effective strain, weld line, injection time, injection pressure and filling state of insulating object plastic injection forming of insulating object of bicycle dynamo hub.

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Chen D-C, Jao CH, Huang CK. Analysis of insulating object plastic injection forming of bicycle dynamo hub power connector. In Fratini L, Micari F, editors, Metal Forming 2014. Trans Tech Publications Ltd. 2014. p. 791-797. (Key Engineering Materials). https://doi.org/10.4028/www.scientific.net/KEM.622-623.791

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