Development of Nickel Alloy Reinforced with Fused SiO2 Chilled Composites and Evaluation of Thermal Properties (Thermal Conductivity & Coefficient of Thermal Expansion) and Temperature Distribution by Finite Element Analysis (FEA)

复合材料期刊(英文) Pub Date : 2017-09-14 DOI:10.4236/OJCM.2017.75017

J. Hemanth

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引用次数: 3

Abstract

This paper presents the results obtained and the discussions made from a series of thermal experiments involving Nickel alloy (ASTM A 494 M) reinforced with fused SiO2, and size of the particles dispersed varies from 80 - 120 μm and amount of addition varies from 3 to 12 wt.% in steps of 3 wt.%. The resulting chilled MMCs are solidified under the influence of copper chill of 25 mm thickness to study the effect of chilling on thermal behaviour. Microstructural studies indicated that the reinforcement distribution is uniform with very good bonding due to chilling effect. Thermal properties were found to decrease significantly with increase in SiO2 content in chilled MMCs. It is concluded from the research that reinforcement content and the temperature has an effect on coefficient of thermal expansion and thermal conductivity of the chilled composite developed. Finite element analysis of the exhaust valve of the IC indicates that chilled Ni alloy composite developed in the present research can be used as alternate material for the existing valve material (Ni-Cr alloy steel). All the tests conducted in this research are in conformance with ASTM standards.

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熔融SiO2冷却复合材料增强镍合金的开发及其热性能（导热系数和热膨胀系数）和温度分布的有限元分析评估

本文介绍了用熔融SiO2增强镍合金（ASTM a 494 M）的一系列热实验的结果和讨论，分散的颗粒尺寸在80-120μm之间，添加量在3-12wt%之间，以3wt%为步长。在25mm厚的铜冷却的影响下，对冷却后的MMCs进行固化，以研究冷却对热行为的影响。微观结构研究表明，由于激冷效应，钢筋分布均匀，结合良好。研究发现，随着冷却MMCs中SiO2含量的增加，热性能显著降低。研究表明，补强量和温度对所制备的冷激复合材料的热膨胀系数和导热系数有影响。对集成电路排气门的有限元分析表明，本研究开发的冷冻镍合金复合材料可以作为现有气门材料（镍铬合金钢）的替代材料。本研究中进行的所有测试均符合ASTM标准。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

复合材料期刊(英文)

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127