2) electroslag refining
电渣重熔
1.
Analysis and control of hydrogen in electroslag refining process;
电渣重熔过程中氢行为的分析及控制
2.
A lot of tests and analyses show H13 steel made by the craftwork of EAF_LF,VD refining_steel ingot_electroslag refining_forging boasts fine quality.
介绍了莱钢研究开发高品质H13热作模具钢的过程,采用电炉→LF、VD精炼→钢锭→电渣重熔→锻造工艺生产的H13钢在做了大量检验分析后,质量性能优良。
3) electroslag remelting
电渣重熔
1.
Method of controlling solidification quality in electroslag remelting process;
电渣重熔过程中金属凝固的控制方法
2.
An Analysis on Formation of ANF-6 Electroslag Fluxes Skin of Electroslag Remelting Ingot;
电渣重熔锭ANF-6熔渣渣皮形成的分析
3.
Effect of Modulating Remelting Power on Pool Depth of Electroslag Remelting;
调整功率对电渣重熔(ESR)熔池深度的影响
4) electro-slag remelting
电渣重熔
1.
Entirely Sealed-in Argon Atmosphere Electro-Slag Remelting Superalloy GH4169;
全封闭Ar气保护电渣重熔GH4169合金
2.
A high precision time-various model is obtained by system identification of electro-slag remelting process.
采用递推的带遗忘因子的最小二乘方法,以现场测得的熔炼电流为输入,实际熔化率为模型输出,对电渣重熔过程进行辨识,得到了精度较高的系统时变模型,并证明了模型的可靠性。
3.
In this article,mechanism of burn-up content of titanium during electro-slag remelting in steel 2Cr18Ni11Ti and factors which influence burn-up content of titanium were analyzed.
本文分析了电渣重熔2Cr18Ni11Ti过程中[Ti]的烧损机理与影响[Ti]烧损的因素,提出了根据自耗电极[Ti]含量灵活制定相应的电渣重熔工艺。
5) ESR
电渣重熔
1.
Effect of Electromagnetic Stirring on Temperature Field of ESR Ingot;
电磁搅拌对电渣重熔钢锭温度场的影响
2.
Study on Controlling Contents of Ti in GH901 Alloy Produced by ESR Process;
GH901合金采用电渣重熔工艺时Ti含量的控制研究
3.
Analysis on Control of Ai and Ti Content in ESR Ingot of GH3030;
GH3030合金电渣重熔Al、Ti成分控制分析
6) electricity dregs heavy furnace
电渣重熔炉
1.
The electricity dregs heavy furnace monitor and automatically pullsout the spindle control system design and research;
电渣重熔炉监测及自动抽锭控制系统的设计与研究
2.
The brief introduction to the electricity dregs heavy furnace principle was presented,the selection of new motor choice(mainly is the fast motor,automatic fluctuation motor,revolving motor),PLC(programmable controller) shaping and inverter shaping were corried out.
简要介绍了电渣重熔炉原理。
补充资料:电渣重熔钢
分子式:
CAS号:
性质:把一般冶炼方法(如平炉、转炉、电弧炉或感应炉等)炼得的金属当作电极(该电极可以是铸造的、锻造的或钢的切头切尾焊成的),通过熔渣电阻热进行二次重熔,电极熔入渣池、在渣池底金属液结晶形成铸锭,即为电渣重熔钢。电渣重熔钢一般没有缩孔、疏松、夹杂物聚集宏观偏析等缺陷,具有很高的组织致密性,成分均匀性和表面光洁。由于重熔设备简单、投资少、见效快,故广泛用于冶炼滚珠轴承钢、不锈钢、耐热钢、高强度结构钢、高速切削钢、热强钢等特殊钢种。
CAS号:
性质:把一般冶炼方法(如平炉、转炉、电弧炉或感应炉等)炼得的金属当作电极(该电极可以是铸造的、锻造的或钢的切头切尾焊成的),通过熔渣电阻热进行二次重熔,电极熔入渣池、在渣池底金属液结晶形成铸锭,即为电渣重熔钢。电渣重熔钢一般没有缩孔、疏松、夹杂物聚集宏观偏析等缺陷,具有很高的组织致密性,成分均匀性和表面光洁。由于重熔设备简单、投资少、见效快,故广泛用于冶炼滚珠轴承钢、不锈钢、耐热钢、高强度结构钢、高速切削钢、热强钢等特殊钢种。
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