Effect of Weight Percent Mg and Heat Treatment on the Mechanical Properties of Al10Si Aluminum Alloy Casting Products Car Chassis Materials

J. J. Numberi, J. Joni, E. I. Bhiftime, Rando Tungga Dewa, Ariyo N.S. Permata, Wahyu D. Lestari, M. S. Utama R., M. I. Atami, Annisa Ariesta, Muhammad Raihan Atallah Yasir
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Abstract

Innovation in the automotive field is now growing rapidly. New materials are considered to be incorporated in automotive design if they have economic and vehicle performance benefits. This research investigates the change of the Magnesium (Mg) addition and heat treatment to the mechanical properties and microstructure of the car chassis prototype with Al10Si Aluminum alloy base material. The process of casting using the High-Pressure Die Casting method. Variation of Mg (3, 4, 5 wt%) to increase the strength of mechanical properties of Al10Si aluminum alloy material. In the casting process, the first Al10Si heated up to 690°C. Mg is incorporated into the heating furnace, then stirred by a mechanical stirrer. Stirring speed of 90 rpm and stirring time of 120 seconds. After it has poured into the mold, the casting temperature is 740°C. Then cools the room to room temperature 39°C. Then performed, heat treatment, using the method of age hardening and artificial aging. The test results prove that the hardening heat treatment makes the grain size smaller. Small grain size, then increase the strength of the material with the addition of Mg elements.
镁的重量百分比和热处理对 Al10Si 铝合金铸造产品机械性能的影响 汽车底盘材料
目前,汽车领域的创新发展迅速。如果新材料能带来经济效益和汽车性能,就会被考虑纳入汽车设计中。本研究调查了添加镁(Mg)和热处理对以 Al10Si 铝合金为基材的汽车底盘原型的机械性能和微观结构的影响。铸造工艺采用高压压铸法。通过改变镁的含量(3、4、5 wt%)来提高 Al10Si 铝合金材料的强度和机械性能。在铸造过程中,首先将 Al10Si 加热到 690°C。在加热炉中加入镁,然后用机械搅拌器进行搅拌。搅拌速度为 90 rpm,搅拌时间为 120 秒。倒入模具后,浇铸温度为 740°C。然后冷却至室温 39°C。然后进行热处理,采用时效硬化和人工时效的方法。试验结果证明,硬化热处理使晶粒尺寸变小。晶粒变小后,随着镁元素的添加,材料的强度也随之提高。
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