The engendering rule of organism of liquidus casting aluminum alloy A356 at different heat preservation temperature, different heat preservation time was investigated.
研究了液相线铸造A35 6铝合金在不同保温温度、不同保温时间下的组织形成规律。
Research method and main results is as following: Using electrical resistance furnace and cooling slope to melt A356 aluminum alloy and gain the semi-solid slurry.
研究方法和主要成果如下:使用电阻炉熔炼a356铝合金,并采用斜坡冷却法进行半固态熔体的制备。
Using resistance furnace, the structure of A356 aluminum alloy casted by nearby liquidus semi-continuous was studied during remelting by means of electron microscope and image analysis apparatus.
利用电阻炉加热,采用电子显微镜及图象分析仪,研究了近液相线铸造a 356铝合金在二次加热过程中的组织变化。
The tensile fracture mechanism of cast A356-T6 aluminum alloy revealed a trangranular model(along the cell fracture) with quasi-cleavage feature.
铸造A356-T6铝合金试样的拉伸断口显示其断裂为韧性断裂与脆性断裂的混和模式。
The effect of forming temperature, injection pressure and piston velocity on the filling ability of semi-solid A356 aluminum alloy slurry were investigated.
研究了半固态A356铝合金浆料的成形温度、压射比压和压射冲头速度对半固态A356铝合金流变压铸充填性的影响。
The effect of ultrasonic degassing under different time of A356 Aluminum alloy is studied by using vacuum decompress test, and the effect of ultrasonic field on the solidification microstructure.
以a356合金作为实验材料,通过真空减压试验考察超声场对金属气体去除效果的影响,研究超声场对铝合金凝固组织的影响。
Abstract: Effects of vacuum degree and filling temperature on the casting length of A356 aluminum alloy wire prepared by vacuum suction casting were investigated.
摘要:采用真空吸铸法制备了A356铝合金丝材,并对充型温度和绝对真空度对丝材长度的影响进行了研究。
The A356 aluminum alloy semi-solid slurry by damper cooling tube method was prepared under different pouring temperature conditions, and was compared with ones by cooling slope method.
介绍了阻尼冷却管法制备a 356铝合金半固态浆料工艺的试验装置及其工艺流程,在不同浇注温度下进行了系列试验,并与冷却斜槽法进行了对比分析。
With a fixed the absolute vacuum, the length of the A356 aluminum alloy wire is increased with the increase of the filling temperature.
当绝对真空度一定时,A356铝合金丝材的吸铸长度随充型温度的升高而增大。
The reheating process for A356 aluminum alloy was conducted with main frequency induction furnace.
以A356合金为对象,采用中频电磁感应器进行了二次加热工艺的研究。
The reheating process for A356 aluminum alloy was conducted with main frequency induction furnace.
以A356合金为对象,采用中频电磁感应器进行了二次加热工艺的研究。
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