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李元元, Yuanyuan Li*, Junming Luo, Zongqiang Luo, Zhiyu Xiao, T. Leo Ngai
Journal of Materials Processing Technology 55(1995)154-161,-0001,():
-1年11月30日
The remarkable tribological behavior of a novel high-strength, wear-resisting zinc-based alloy, named ZMJ, which is aimed to replace bronze as an engineering material, has been studied. A desirable wear-resisting microstructure was achieved through a specially designed composition and casting procedure. The micro-constituents and microstructures were studied, their relationships with the mechanical, anti-friction and wear-resisting properties having been analyzed both qualitatively and quantitatively. It was found that the microstructure of ZMJ plays a dominant role in providing its superior wear-resisting properties. The composition of ZMJ consists of Zn, Al, Cu, Mg, Mn, Ti, B and rare earth elements. The functions of each of these alloying elements have been explained in detail. This novel alloy's strengthening mechanisms and wear mechanisms have been studied and compared with those of phosphor-tin-bronze ZCuSn10P1 (GB1176-87) and the popular ZA-27 (ASTM B669-82) zinc-based alloy. ZMJ has been proven to be an excellent engineering material by comparing its mechanical properties and friction and wear properties with those of ZCuSnlOP1 and ZA-27. Industrial applications in gears, worm-gears, bearing and bushes etc. have shown that ZMJ brings significant benefits in energy saving and enhances the quality and life expectancy of these machinary parts.
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李元元, Yuanyuan Li, Tungwai Leo Ngai, Wei Xia
Wear 197(1996)130-136,-0001,():
-1年11月30日
By studying microstructural effects on the mechanical and tribological behaviors of aluminum bronzes, a novel high-strength wear-resisting aluminum bronze (KK) has been developed by optimizing microstructures, modifying, adding special elements and controlling the casting process. The mechanical properties, friction and wear behavior of this alloy have been tested and compared with two other commercial aluminum bronzes of the same class. Experimental results show that the properties of the novel KK bronze are much superior to those of the other bronzes.
Aluminum bronze, Wear resisting, Friction and wear, Modify
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【期刊论文】Effects of Mn content on the tribological behaviors of Zn-27% A1-2% Cu alloy
李元元, Yuanyuan Li, Tungwai Leo Ngai, Wei Xia, Wen Zhang
Wear 198(1996)129-135,-0001,():
-1年11月30日
Friction and wear characteristics of a Zn-27% Al-2% Cu alloy, modified with Ti and misch metal, with different Mn contents, coupled with steel have been studied. A pin-on-disk tribometer was used to measure the friction coefficient of alloy samples under different loads, speeds and lubricating conditions while the wear volume and temperature rise of the lubricant were measured by a cylinder-on-ring wear tester. Friction and wear characteristics of these Mn-containing alloys were compared with those of ZA-27. Effects of Mn content on the tribological behaviors and microstructures were studied and the relationships between the tribological characteristics and the microstructures of the alloy were also analyzed. Experimental results indicate that the addition of Mn can significantly improve the tribological behaviors of the Zn-27% Al-2% Cu alloy. Finally, an optimum Mn content for the best overall mechanical properties and tribological behaviors was obtained.
Tribological behaviors, Manganese, Zn-Al-Cu alloy
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李元元, YUANYUAN LI, T. L. NGAI*
JOURNAL OF MATERIALS SCIENCE 31(1996)5333-5338,-0001,():
-1年11月30日
Microstructural effects on mechanical and tribological behaviours have been studied for a series of aluminium bronzes with different microstructures. ASTM 1045 and 52100 steels were used as the counterparts in the friction and wear tests. Experimental data show that the coefficients of friction, wear rate and mechanical properties strongly depend on the volume fraction of a-phase present in the alloy and, to a lesser extent, on the average a-grain size. The minimum coefficients of friction and the wear rate correspond to a yield strength of 370 Nmm-2 and a bulk hardness of liB 168. Except for extreme low average a-grain size (corresponding to low volume fraction), both the coefficients of friction and the wear rate show linear relations with the reciprocal of the yield strength of the alloy, but not to the reciprocal of the hardness as expected. Based on these results, a design principle for high strength wear-resistant aluminium bronze has been developed.
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李元元, LI Yuan-yuan, FEI Jin, CHEN Wei-ping, ZHANG Wei-wen, SHAO Ming
J. CENT. SOUH UNIV. TECHNOL. 2002, 9 (4): 228~234,-0001,():
-1年11月30日
The 2024/3003 alumintan gradient alloys are prepared by semi-continuous casting. The influences of throttle bore diameter of embedded nozzle and temperature of internal melt on composition distribution, macrestructure, hardness are analyzed, and the stability of gradient distribution of composition, macmstructure and hardness along the axial direction of the ingot is also studied. The results show that diffe-rent composition profiles can be achieved by adjusting the processing parameters; the volume fraction of inner ahoy in the ingot can be increased by enlarging the threttle bore diameter and elevating the temperature of inner melt; quasi-steady solidification can be realized within 20s during cast processing, and consistent quality ingot is obtained by controlling the casting speed and liquid height of inner melt.
2024/, 3003 Al alloys, gradient materials, semi-continunus casting
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