Yali TANG
,
Ningfu SHEN
,
Xiaofang LIU(Research Center for Materials
,
ZhengZhou University of Technology
,
Zhengzhou 450002
,
China)Zhiping LUO(Institute of Aeronautical Materials
,
Beijng 100095
,
China)Baicheng LIU(Tsinghua University
,
Beijing 100084
,
China)
材料科学技术(英文)
Zn-Mg-Y and Mg-Zn-Y-Zr ingots with different chemical compositions were investigated by X-ray diffraction (XRD) and transmission electron microscopy (TEM). The icosahedral phases were found in all alloys studied in present work under the as-cast conditions. There are nearly all quasicrystal phases with some MgZn2 Laves phase in a Zn-28.31Mg-13.80Y alloy (wt pct).After annealing at 400℃ for 8 h, the quasicrystal phases transformed to an fcc "W" phase in an Mg-5.57Zn-1.08Y-0.60Zr alloy (wt pct).
关键词:
Xingzhong ZHAO
,
Jiajun LIU and Baoliang ZHU (Tsinghua University
,
Beiing 100084
,
China)Cuiyuen WANG (Zhengzhou Research Institute of Mechanical Engineering
,
Zhengzhou 450002
,
China)
材料科学技术(英文)
The antiwear properties of two wheel/rail lubricating oils were tested and compared on an Amsler machine. Under same testing conditions, oil A (developed by authors) showed much better wear resistance and higher load-carrying capacity than oil B (imported from abroad). The X-ray diffraction (XRD) analyses of the worn surfaces showed that different extreme pressure (EP) lubricating films were formed on the surfaces when the rollers were lubricated with different oils under boundary Iubrication condition. The EP film of oil A was a composite film containing three compounds, FeO, FeSx and FeP, while oil B formed only a simple EP film of FePO4. The composite EP film showed lower shear strength and better antiwear property than the simple EP film,which brought about different wear resistance of the two wheel/rail lubricating oils.
关键词:
WANG Zheng
,
REN Chenxing and WANG Suying(Department of Materials Science
,
Zhengzhou Institute of Technology
,
Zhengzhou 450002
,
China)Manuscript received 2 January 1996
,
in revised form 7 March 1996)
金属学报(英文版)
By means of Precipitation hardening, a cast copper alloy with high strength and heatresistance named Cu-6Ti-Cr-Al has been developed. This alloy has good castability. After water quenching at 860℃ for 1 h and aging at 450℃ for 4 h, the tensile strength, σ_b, is greater than 890MPa and the compressive strength, σ_(bc), reaches 1300MPa, while the ratio of compression, ε_c, is maintained at 20%. When the environmental temperature is raised to 450℃, the mechanical properties do not show any appreciable loss. These copper alloy castings have been used on the roll sleeves of rubber formers and the journal bearings of sheet mills. The results have shown that the service life of these parts is much longer than that of aluminium bronze and 904alloy castings. In the present work, the microstructure, mechanical properties and strengthening mechanism were investigated.
关键词:
: cast copper alloy
,
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,
null
,
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