| Measurement and Application of Rubber Material Constant Based on Mooney-Rivlin Model |
| Received:April 15, 2017 Revised:May 02, 2017 |
| DOI: |
| Key Words: rubber;vibration reduction;Mooney-Rivlin model;material constant;measurement;application |
| Author Name | Affiliation | E-mail | | Han Binhui* | School of Aeromautical Manufacturing Engineering,Xi’an Aeronautical Polytechnic Insititute,Xi’an 710089 | hbhzayy@126.com | | Yang Baoxiang | School of Aeromautical Manufacturing Engineering,Xi’an Aeronautical Polytechnic Insititute,Xi’an 710089 | | | Zhang Aiqin | School of Aeromautical Manufacturing Engineering,Xi’an Aeronautical Polytechnic Insititute,Xi’an 710089 | | | Lv XIaodong | School of Aeromautical Manufacturing Engineering,Xi’an Aeronautical Polytechnic Insititute,Xi’an 710089 | | | Zhang Gang | School of Aeromautical Manufacturing Engineering,Xi’an Aeronautical Polytechnic Insititute,Xi’an 710089 | |
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| Abstract: |
| A uniaxial tensile test was conducted with a damping material testing machine to obtain material constants C10 and C01 of a certain kind of rubber,which were substituted into the two-parameter Mooney-Rivlin model.ANSYS finite element analysis software was used to simulate the tubular rubber shock absorber and the planetary gear shock absorber.The test results of the actual product installed machine showed that the vibration acceleration of the new tubular shock absorber had dropped by 67.5%,and the natural frequency of the improved planetary gear shock absorber had been greatly reduced. |
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