TITLE:
Friction Shear Stress on the Surface of Iron-Based Coating/HSS during Sliding Wear of Pin Disk
AUTHORS:
Huajun Wang, Kangkang Gan, Xiaoguang Zhou, Songshan Yan, Longfei Niu
KEYWORDS:
High Strength Steel, Iron-Based Cladding, Sliding Wear, Friction Shear Stress, Finite Element Analysis
JOURNAL NAME:
Journal of Applied Mathematics and Physics,
Vol.5 No.9,
September
15,
2017
ABSTRACT:
With the increasing demand for lightweight and lower fuel consumption and safety of automobile industry, lightweight materials of high strength steel (HSS) are more and more widely used. The hot stamping technology, which is determined by the inherent mechanical properties of high strength steel, makes molds prone to wear failure in the harsh service environments. In this paper, a finite element model is proposed for analyzing the value and distributions law of friction shear stress of contact surface of the pin disk. Through the simulation process of sliding wear, two kinds of different cladding materials of the pin specimens including H13 and Fe65, were experimented under three different loads by using the software ABAQUS. And then the pin-on- disk wear test at elevated temperature was conducted to verify the effectiveness of the simula-tion results. The results showed that the friction shear stress of pin with iron-based cladding and H13 steel was different under different loads, but the distribution was basically the same; the normal friction shear stress increased gradually along the direction of the pin movement, and the tangential shear stress increased gradually from the center of the pin to the outside of the circle; the value of the friction shear stress of the normal joints on the contact surface was periodically fluctuating in the whole dynamic analysis step, while it was basically stable in the tangential direction.