In order to simulating the torsional friction of the center plate during the railcar body traveling on different railway curves at different environmental temperatures, the torsional friction behavior of monomer casting (MC) nylon composites which was used to make center plate, at temperatures of −25 °C to 50 °C was studied. With increasing temperature, the mechanical properties of nylon composites were weakened, whereas the visco-elastic property was boosted. Under torsional angle of 1.8 deg and 0.96 deg, all the torque–angular displacement (T–θ) curves exhibited the quasi-parallelogramic shape at various temperatures. When the temperature was higher than 25 °C under 0.42 deg, the shape transformed from elliptic to parallelogrammic. This indicated that the torsional regime changed from a partial slip to a gross slip. With increasing temperature, the torsional torque decreased and the wear mass loss increased because of weakened mechanical properties. The wear mechanism changed from slight plastic flow at low temperature to serious adhesive and three-body abrasion wear at high temperature.
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January 2016
Research-Article
Effect of Temperature on Mechanical Properties and Torsional Friction Behaviors of Bogie Center Plate
Shibo Wang,
Shibo Wang
School of Mechanic and Electronic Engineering,
China University of Mining and Technology,
Xu Zhou 221116, China
e-mail: wangshb@cumt.edu.cn
China University of Mining and Technology,
Xu Zhou 221116, China
e-mail: wangshb@cumt.edu.cn
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Chengchao Niu,
Chengchao Niu
School of Mechanic and Electronic Engineering,
China University of Mining and Technology,
Xu Zhou 221116, China
e-mail: niuchengchao66@163.com
China University of Mining and Technology,
Xu Zhou 221116, China
e-mail: niuchengchao66@163.com
Search for other works by this author on:
Bo Cao
Bo Cao
School of Mechanic and Electronic Engineering,
China University of Mining and Technology,
Xu Zhou 221116, China
e-mail: shanxi2008caobo@163.com
China University of Mining and Technology,
Xu Zhou 221116, China
e-mail: shanxi2008caobo@163.com
Search for other works by this author on:
Shibo Wang
School of Mechanic and Electronic Engineering,
China University of Mining and Technology,
Xu Zhou 221116, China
e-mail: wangshb@cumt.edu.cn
China University of Mining and Technology,
Xu Zhou 221116, China
e-mail: wangshb@cumt.edu.cn
Chengchao Niu
School of Mechanic and Electronic Engineering,
China University of Mining and Technology,
Xu Zhou 221116, China
e-mail: niuchengchao66@163.com
China University of Mining and Technology,
Xu Zhou 221116, China
e-mail: niuchengchao66@163.com
Bo Cao
School of Mechanic and Electronic Engineering,
China University of Mining and Technology,
Xu Zhou 221116, China
e-mail: shanxi2008caobo@163.com
China University of Mining and Technology,
Xu Zhou 221116, China
e-mail: shanxi2008caobo@163.com
1Corresponding author.
Contributed by the Tribology Division of ASME for publication in the JOURNAL OF TRIBOLOGY. Manuscript received March 10, 2015; final manuscript received July 20, 2015; published online August 31, 2015. Assoc. Editor: Dae-Eun Kim.
J. Tribol. Jan 2016, 138(1): 011104 (7 pages)
Published Online: August 31, 2015
Article history
Received:
March 10, 2015
Revised:
July 20, 2015
Citation
Wang, S., Niu, C., and Cao, B. (August 31, 2015). "Effect of Temperature on Mechanical Properties and Torsional Friction Behaviors of Bogie Center Plate." ASME. J. Tribol. January 2016; 138(1): 011104. https://doi.org/10.1115/1.4031137
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