1) liquidus forging
液相线模锻法
1.
Microstructure evolution of magnesium alloy ZK60-RE made by liquidus forging during semi-solid isothermal heat treatment;
液相线模锻法制备ZK60-RE镁合金半固态组织演变
2) liquid forging
液态模锻
1.
Design of liquid forging die for shot's shell;
炮弹壳体液态模锻模设计
2.
Research on Liquid Forging Mould Design Based on UG NX4.0;
基于UG NX4.0的液态模锻模具设计
3) liquid die forging
液态模锻
1.
Simulation of thin wall aluminum alloy shell by liquid die forging;
铝合金薄壁壳体件液态模锻成形过程的数值模拟
2.
Study of mechanical performance of liquid die forging SiCp/ZL201 compound materials;
液态模锻SiCp/ZL201复合材料力学性能研究
3.
The Research and Application about Liquid Die Forging Technology;
液态模锻技术的研究和应用现状
4) squeeze casting
液态模锻
1.
In the paper, the hot crack for the forging die made by methods of squeeze casting is analyzed, how to reduce the hot crack is also given out.
从生产实际出发 ,分析了锻模液态模锻成形过程中热裂纹形成的主要原因 ,提出了降低锻模热裂纹的几点措
2.
The defects of forging die made by squeeze casting were analyzed , The corresponding protective measures were also given out.
分析了液态模锻锻模常出现的几种缺陷,提出了相应的预防措施。
3.
In order to solve the questions uncovered, squeeze casting technique used as the process for critical steel castings of hammerhead was put forward in this paper.
为了解决这些问题,本文提出采用液态模锻工艺进行锤式破碎机关键零件的生产,并以破碎机锤头通用材质高锰钢(ZGMn13)为研究材料,以破碎机锤头为例,从锤头规格选择、生产工艺确定、模具设计、工艺设计、成形质量的控制、液锻件组织与力学性能和加工硬化规律等方面对该工艺进行了系统的实验与理论研究。
5) liquid metal forging
液态模锻
1.
The temperature field of cylinder piece shaped by liquid metal forging was studied through mathematical model.
通过数学建模对柱形件液态模锻的温度场进行了研究,计算了凝固过程中在凝固收缩和加压补缩作用下的缩孔体积,建立了差分方程,编制了通用性软件,并以高锰钢为例进行了工艺研究。
2.
Liquid metal forging is not only a chemistry-physics(solidification) process,but also a mechanics(plastic deformation and forced feeding) process.
液态模锻既是一个物理化学(凝固)过程,亦是一个力学成形(塑性变形、强制补缩)过程,两者的复合,便形成了液态模锻自身理论。
3.
On the basis of the experimental data obtained by adopting the analogue experiment method,the influence of the process parameters of liquid metal forging on tile properties of Zn base alloy has been expounded .
采用模拟实验法的实验数据,探讨了液态模锻工艺参数对锌合金性能的影响。
6) liquid state forging
液态模锻
1.
Under laboratory condition,by applying multifactor orthogonal test and changing concent of Mg,Cu,Zn and Si,liquid state forging was adopted to form the aluminum-alloy under 120 MPa pressure.
在实验室条件下,运用多因素正交试验调整合金元素Mg、Cu、Zn和Si的含量,随后在120MPa压力下对该铝合金进行液态模锻成形。
2.
The processes of metal-die casting and liquid state forging were adopted to forming AZ91D magnesium alloy under the laboratory condition.
在实验室条件下,分别采用金属型铸造和液态模锻工艺对AZ91D镁合金进行了成形,对比分析了两种不同成形方式下试样的力学性能。
3.
Based on experiment,using multifactor orthogonal test,the chemical composition of Al-alloy for liquid state forging was optimized.
基于实验基础,运用多因素正交试验,优化了一种适合液态模锻用铝合金的化学成分。
补充资料:液相线温度
液相线温度
液相线温度(又称初晶温度)是铝电解体系的一个重要的性质,它与铝电解操作温度有直接的关系。电解质温度对于稳定的生产非常重要。工业实践证明,当电解质温度降低10℃,电流效率可提高2%。熔体的温度过高或过低,都将影响冶金生产作业的正常进行,及时检测和控制熔体的温度,是保证冶金生产正常作业的重要条件之一。电解质组分不同,其分子比也不同。电解质的分子比适当降低,其过热温度也随之下降,这有利于降低电解温度,提高电流效率。分子比偏高或偏低对槽膛都会有较大的影响。低分子比操作是现代高效节能铝电解槽的标志。由上可知测定铝电解质的液相线温度和分子比对铝电解工业是多么重要。
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