Haiter Lenin Allasi, Mary Vasanthi Soosaimariyan, Vettivel Singaravel Chidambaranathan
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引用次数: 0
摘要
铜基复合材料得益于铜的高导电性和热导率以及硬增强材料的耐机械磨损/侵蚀性。在本研究中,试图确定在Cu-Ni-Sn中添加增强剂B4C的效果。采用粉末冶金技术对B4C进行强化,形成杂化铜基复合材料。杂化复合材料是通过磨粉、共混和压实得到无团聚的细粒度颗粒而得到的。采用扫描电子显微镜(SEM)和x射线衍射仪(XRD)对其粒度和颗粒性质进行了表征。研究了复合材料的显微组织、密度、硬度和磨损率。采用销盘法研究摩擦磨损特性和摩擦系数。制备的Cu-15%Ni的烧结密度为98.25%,Cu-8%Sn为98.20%,Cu-15%Ni-8% sn为98.10%,Cu-15%Ni-8% sn -2%B4C为95.26%,Cu-15Ni-8Sn-2B4C的比磨损率较低121×10-6 mm3/(Nm), Cu-Ni-Sn中加入增强剂B4C后,磨损率和摩擦系数发生了显著变化。
Wear Behaviour of a Cu-Ni-Sn Hybrid Composite Reinforced with B4C prepared by Powder Metallurgy Technique
Cu matrix composites benefit from the high electrical and thermal conductivities of Cu and the mechanical wear/erosion resistance of hard reinforcement. In this study, an attempt has been made to determine the effect of the addition of reinforcement B4C in Cu-Ni-Sn. The B4C is reinforced to form a hybrid Cu matrix composite with powder metallurgy technique. The hybrid composites are obtained by milling, blending, and compacting the powders to obtain a fine grain-sized particle without aggregation. The grain size and particle nature were characterized using scanning electron microscope (SEM) and X-ray diffraction (XRD) techniques, respectively. The microstructure, density, hardness, and wear rate of the composites were studied. The pin-on-disc method is equipped to study the wear behaviour and coefficient of friction. The sintered density of the prepared Cu-15%Ni is 98.25 %, Cu-8%Sn is 98.20 %, Cu-15%Ni-8%Sn is 98.10 % and Cu-15%Ni-8%Sn-2%B4C is 95.26 % and lower specific wear rate has been recorded for Cu-15Ni-8Sn-2B4C 121×10-6 mm3/(Nm) and the addition of reinforcement B4C in Cu-Ni-Sn displays remarkable changes in wear rate and friction coefficient.
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