1) high temperature forging
高温锻造
1.
0, was used to investigate the high temperature forging of TiAl alloy.
利用商业化有限元模拟软件Deform-3D对TiAl合金高温锻造开坯工艺过程进行了数值模拟,获得了两步锻造时不同变形量组合下变形饼坯中等效应变场和断裂因子分布信息。
2) isothermal forging
等温锻造
1.
Design of heating device for magnesium alloy isothermal forging and temperature curve of die;
镁合金等温锻造加热装置的设计及模具温度曲线
2.
Numerical simulation of grain size during isothermal forging of TC6 alloy;
TC6合金等温锻造过程中晶粒尺寸的数值模拟
3.
Simulation of Isothermal Forging for Superalloy and Analysis of Thermal Load on Die;
粉末高温合金盘件等温锻造模拟及模具热负荷分析
3) forging temperature
锻造温度
1.
Using TA5 ingot with α/α+β transformation temperature of 990-1 000 ℃ by two times melting,the tests for forging temperature and reduction were performed.
采用二次真空熔炼熔铸的α/α+β转变温度为990 ̄1000℃的TA5钛合金,在β相区开坯,经多火次中间锻造后,对其最后一火次的锻造,改变锻造温度和变形量共8种工艺方案进行实验,考察锻造温度和变形率对组织和性能的影响。
2.
According to the forging blank requirements of a magnesium alloy shell,the parameters such as forging temperature,furnace holding time,clamping board temperature of the forging machine,forging time and so on of MB2 magnesium alloy forged on the general forging machine are determined by experiments.
根据某壳体零件锻造毛坯的要求,通过试验确定了MB2镁合金在普通锻床上锻造时的锻造温度、炉膛保温时间、锻床夹板温度、锻打时间等工艺参数,为制订该合金的锻造工艺提供了依据。
4) thermal differential forging
差温锻造
5) low-temperature forging
低温锻造
1.
Analysis of familiar defects of low-temperature forging on operating instruments;
手术器械低温锻造常见缺陷原因分析
6) isothermal forging
恒温锻造
补充资料:高温
较高的温度,在不同的情况下所指的具体数值不同,例如在某些技术上指几千摄氏度以上,在工作场所指32摄氏度以上。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条