Effect of Squeeze Cast Process Parameters on Fluidity of Aluminium LM6 Alloy

International journal of advancements in computing technology Pub Date : 2016-04-24 DOI:10.4172/0976-4860.1000157

R. Vignesh, G. Sanjay, M. Hi, A. Vignesh, P. Rajarajan

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引用次数: 4

Abstract

In squeeze casting process, the liquid molten metal charge is compressed under a pressure inside the mould cavity. The applied squeeze pressure should be optimum because the cooling rate of molten metal increases with the increase in applied pressure there by fluidity property decreases. In the present work investigation about the effect of Squeeze pressure on the Aluminium LM6 fluidity property. Fluidity refers to the property of a metal; the most prevalent fluidity tests is the spiral-shaped mould test, Aluminium LM6 alloy in the molten state is applied into the spiral die cavity by the squeeze pressure. The distance covered by molten metal in spiral channel after the application of pressure is the measure for fluidity. The fluidity keeps increasing up to a particular pressure and drops suddenly. At a pouring temperature of 750°C the maximum fluidity of LM6 alloy during squeeze casting was obtained under the applied pressure of 30 MPa and the fluidity of LM6 alloy during squeeze casting increases with increase in pouring molten metal temperature.

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挤压铸造工艺参数对LM6铝合金流动性的影响

在挤压铸造过程中，液态熔融金属料在模腔内的压力下被压缩。施加的挤压压力应该是最佳的，因为随着施加压力的增加，熔融金属的冷却速度增加，流动性降低。本文研究了挤压压力对LM6铝流动性能的影响。流动性是指金属的性质;最流行的流动性试验是螺旋形模具试验，将处于熔融状态的LM6铝合金通过挤压压力施加到螺旋模腔中。施加压力后，熔融金属在螺旋通道中覆盖的距离是衡量流动性的指标。流动性一直增加到某一特定压力，然后突然下降。当浇注温度为750℃时，施加压力为30 MPa时，LM6合金的挤压铸造流动性最大，且随着浇注温度的升高，LM6合金的挤压铸造流动性增大。

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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International journal of advancements in computing technology

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