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Sliding Wear Behaviour of Aluminum Alloy (Lm-13)Reinforced with Nano-ZrO2 Matrix Composites

机译：纳米ZrO2基复合材料增强铝合金（Lm-13）的滑动磨损行为

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In the present investigation, aluminum alloy (LM 13) is dispersed with Nano-ZrO2 particles by stir casting technique followed by the hot extrusion process. Particulate size dispersed varies from 50-80 nm and the amount of addiction varies from 2 to 10wt% in steps of 2%. The wear characteristics of the developed nano metal matrix composite are analyzed by pinon-disc dry sliding wear test against hardened steel under varying loads. Nano ZrO2 particulates have an excellent load bearing capacity under applied load in sliding process,udthus enhancing the wear resistance of nano metal matrix composites. The wear resistance increases as the wt. % of reinforcement content increases in the matrix material and wear resistance decreases as the applied load increases. Wear resistance is more in nano composites as compared to the LM13 matrix material.

机译：在本研究中，铝合金（LM 13）通过搅拌铸造技术分散在纳米ZrO2颗粒中，然后进行热挤压工艺。分散的颗粒大小在50-80 nm之间变化，成瘾量在2％到10wt％之间变化，步长为2％。通过在不同载荷下对硬钢进行皮氏盘干滑磨损试验，分析了开发的纳米金属基复合材料的磨损特性。纳米ZrO2颗粒在滑动过程中施加负载时具有出色的承载能力，从而增强了纳米金属基复合材料的耐磨性。耐磨性随着重量的增加而增加。基体材料中增强材料含量的％增加，并且随着所施加的载荷增加，耐磨性降低。与LM13基体材料相比，纳米复合材料的耐磨性更高。

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Sumod Daniel .; Harish G.;
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年度 2015
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Sliding Wear Behaviour of Aluminum Alloy (Lm-13)Reinforced with Nano-ZrO2 Matrix Composites

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