振动挤压铸造机压力控制系统优化研究
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摘要
铝合金轮毂振动挤压铸造过程中,对振动挤压铸造机振动压力的合理控制是获取优良铸件的前提。为了实现对振动压力进行准确调控,对振动挤压铸造工艺进行分析,提出了铝合金轮毂振动挤压铸造机优化方案,设计了振动挤压铸造机振动压力控制系统,并利用仿真实验对振动压力控制系统进行有效性测试。结果表明,所设计振动压力控制系统能对压力进行准确、快速的调控,实现了对铝合金轮毂振动挤压铸造机进行优化的效果。
The reasonable control of the vibration pressure of the squeeze casting machine is the precondition of obtaining the good casting. In order to realize the accurate and effective control of the vibration pressure, the process of the vibration squeeze casting was analyzed. The study on optimization of vibration squeeze casting machine for automotive aluminum alloy wheel was proposed. According to the working principle of the vibration squeeze casting machine, the vibration pressure control system of the vibration squeeze casting machine was designed. The vibration simulation of the squeeze casting machine vibration pressure control system for effective testing, through the simulation experiments show that the design of the pressure vibration control system can quickly and accurately control the pressure, can be achieved on the vibration of automobile wheel hub Aluminum Alloy squeeze casting machine good optimization effect.
The reasonable control of the vibration pressure of the squeeze casting machine is the precondition of obtaining the good casting. In order to realize the accurate and effective control of the vibration pressure, the process of the vibration squeeze casting was analyzed. The study on optimization of vibration squeeze casting machine for automotive aluminum alloy wheel was proposed. According to the working principle of the vibration squeeze casting machine, the vibration pressure control system of the vibration squeeze casting machine was designed. The vibration simulation of the squeeze casting machine vibration pressure control system for effective testing, through the simulation experiments show that the design of the pressure vibration control system can quickly and accurately control the pressure, can be achieved on the vibration of automobile wheel hub Aluminum Alloy squeeze casting machine good optimization effect.
引文
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[2]徐宁.汽车铝合金轮毂铸造工艺研究[J].长春大学学报,2015,25(2):13-16.
[3]胡世军,陈玉荣.预压力可调式超声振动挤压系统的表面压光试验研究[J].机械设计与制造,2014(2):250-252.
[4]张琦,贲宁宇,王聚存,等.花键轴振动挤压成形试验研究[J].西安交通大学学报,2015,49(11):110-115.
[5]王宏睿,张杰.扭转振动挤压攻丝的扭矩实验研究[J].现代制造工程,2011,11(9):93-97.
[6]杨庆华,陈鑫,孟彬,等.汽车活塞销振动挤压数值模拟分析[J].浙江工业大学学报,2013,41(3):317-320.
[7]董梦龙.铝合金振动挤压铸造的机理研究及其装置设计[D].华南理工大学,2015.
[8]贾诚安,叶林,葛俊锋,等.一种基于STM32和ADS1248的数字PID温度控制系统[J].传感器与微系统,2015,34(11):103-105.
[9]聂蒙,李建勇,沈海阔.基于容腔调节的钢轨打磨压力控制系统[J].西南交通大学学报,2015,50(5):796-802.
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