In this paper,the friction behavior at a pin-to-plate interface is investigated.The pin and plate are made of Polytetrafluoroethylene(PTFE) and steel,respectively,and there is a reciprocating motion at the interface.G...In this paper,the friction behavior at a pin-to-plate interface is investigated.The pin and plate are made of Polytetrafluoroethylene(PTFE) and steel,respectively,and there is a reciprocating motion at the interface.Governing mathematical models for the relations of design variables and frictions are investigated,and a general procedure is proposed to solve the developed models and predict the friction forces at the interface subjected to given test conditions.Novel models have been developed to represent intrigued friction behaviors affected by various factors such as pin geometrics and finishes,lubrication conditions,and reciprocating speed.The test data from experiments is used to verify the effectiveness of the proposed models.展开更多
基金the support by the State International Science and Technology Cooperation Special Items(Grant No.2015DFA11700)the Frontier and Key Technology Innovation Special Funds of Guangdong Province(Grant Nos.2014B090919002 and 2015B010917003)the Program of Foshan Innovation Team of Science and Technology(Grant No.2015IT100072)
文摘In this paper,the friction behavior at a pin-to-plate interface is investigated.The pin and plate are made of Polytetrafluoroethylene(PTFE) and steel,respectively,and there is a reciprocating motion at the interface.Governing mathematical models for the relations of design variables and frictions are investigated,and a general procedure is proposed to solve the developed models and predict the friction forces at the interface subjected to given test conditions.Novel models have been developed to represent intrigued friction behaviors affected by various factors such as pin geometrics and finishes,lubrication conditions,and reciprocating speed.The test data from experiments is used to verify the effectiveness of the proposed models.
