1) initial forging temperature
始锻温度
1.
Based on a series of simulation the influence of forging shape on final forming,the influence of friction factor,press speed,initial forging temperature on maximum forming force were analyzed,then the forming process was divided into four phases.
利用有限元数值模拟软件DEFORM-3D,分析了预压坯件形状对终成形效果的影响,研究了摩擦因数、锻造速度、始锻温度对终成形最大载荷的影响规律,解析了该大型铝合金壳体成形过程的4个阶段。
2.
Based on the simulation software DEFORM-3D, the influence of initial forging temperature on forming force, the influence of web thickness and web position on stress, damage factor and forming force were analyzed.
利用数值模拟软件DEFORM-3D,分析了始锻温度对最大成形载荷的影响规律,连皮厚度、连皮位置对齿轮成形时的最大应力、最大损伤因子、最大成形载荷的影响规律。
3.
The influence of main technique parameters in the forming process was researched and the appropriate initial forging temperature of 480 ℃ and hold down speed of 10 mm·s-1 were determined.
本文使用DEFORM-3D软件对锻造铝合金轮毂摆动辗压制坯过程进行数值模拟,考察了主要工艺参数对成形过程的影响,并确定了合理的始锻温度480℃和压下速度10 mm。
2) 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。
3) burned temperature
锻烧温度
1.
Based on determining the formulation of cement green stock rationally,the effects of burned temperature and complex mineralizer on the content of f-CaO in cement clinker are discussed.
以铬铁渣为主要原料,采用较低的石灰饱和系数、较高的硅率和铝率、引入适量的复合矿化剂的配料方案,可锻烧出质量合格、性能良好的绿色硅酸盐水泥熟料本文在合理确定水泥生料配方的基础上,着重讨论了锻烧温度和复合矿化剂对熟料中f-CaO含量的影响,研究了锻烧过程中铬铁渣的物相变化,分析了熟料的冷却速率对水泥强度的影响,为绿色水泥生产和铬铁渣综合利用开辟了一条新的途径图5,表2,参3
4) Die Forging Temperature
模锻温度
5) Temperature hardening
温度锻炼
6) terminal forging temperature
终锻温度
1.
Effects of terminal forging temperature and deformation ratio on the microstructure and mechanical property of non-quenched and tempered bainitic steel have been studied by using JB-30 impact testing machine,MTS material testing machine and OM.
用JB-30冲击试验机、MTS材料试验机和OM等试验方法分析了两种终锻温度(820℃和950℃)和三种变形量(3、4、6,锻造变形前后工件截面积的比值)条件下,贝氏体型非调质钢强韧性的变化及其微观组织的区别。
补充资料:铂电阻温度表(见电阻温度表)
铂电阻温度表(见电阻温度表)
表。bod旧nZu wendubiao铂电阻温度表见电阻温
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