Liang Jin Gui scite author profile

This study investigates the influence of temperature and load on the dry sliding property of interface between brake friction material with low metallic formulation and gray cast iron disc. Full factorial design was employed to conduct pin-on-disc wear tests to attain wear and friction response under external heating temperature and applied load ranging from 25-175°C and 50-500N(0.35-3.5MPa), respectively. The analysis of experiment results shows the effect of load on wear rate is almost linear. Wear rate exhibits an increase followed by decrease trend with applied load. Friction coefficient is positively affected by external heating temperature but almost independent of applied load. Quadratic regression is conducted to fit the influence of temperature and load on wear rate and friction coefficient and the result shows sound fitting effect.

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Experimental and Numerical Analysis of an In-Plane Shear Specimen Designed for Ductile Fracture Studies

Gao

Gui

Zhong

2010

Exp Mech

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An in-plane shear specimen made of dual phase steel designed for ductile fracture studies is presented and then analyzed experimentally and numerically. In the experiment, digital image correlation (DIC) technique is utilized to measure the deformation of the specimen. Based on the implicit nonlinear FE solver Abaqus/Standard, numerical analysis of the specimen is performed by using plane stress and solid elements respectively. The elongation of the specimen's gauge length and the shear strain distribution within the shear zone are compared between the experimental and numerical results and a general good agreement is obtained. Thereafter, based on calculated results, the stress state of the shear zone is investigated in detail. It is shown that the shear stress is dominant within the shear zone despite of the emergence of normal stresses. The deformation is concentrated in the shear zone, where the incipient fracture is most likely to occur. The stress triaxiality and the Lode parameter at the fracture initiation are found to be maintained at a relatively low level, which implies that the stress state achieved by the specimen is close to pure shear. The present study demonstrates that the proposed in-plane shear specimen is suitable for investigation of the fracture behavior of high strength materials under shear stress states.

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Experimental and numerical analyses of the axial crushing behaviour of hat sections partially filled with aluminium foam

Wang¹,

Zhai²,

Song³

et al. 2005

International Journal of Crashworthiness

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An Investigation of Tangential Force and Radial Force in PM Motor by means of FEM-simulation

Hong

Gui

Cao

2022

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Liang Jin Gui

Energy absorption properties of braided glass/epoxy tubes subjected to quasi-static axial crushing

The Influence of Temperature and Load on Dry Sliding Wear and Friction Property of Low Metallic Friction Material

Experimental and Numerical Analysis of an In-Plane Shear Specimen Designed for Ductile Fracture Studies

Experimental and numerical analyses of the axial crushing behaviour of hat sections partially filled with aluminium foam

An Investigation of Tangential Force and Radial Force in PM Motor by means of FEM-simulation

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