1) Exo-MeltTM
大气感应放热熔炼
1.
Ni, Al and Fe reaction by Exo-MeltTM process, NiAl—Fe intermetallic alloy was obtained.
本文采用大气感应放热熔炼方法制备NiAl-Fe合金,分析了NiAl-Fe合金微观组织结构,测试了在不同铁含量(wt%)条件下NiAl-Fe合金的室温塑性、压缩性能、硬度、高温抗氧化与室温抗腐蚀性能,初步阐明了组织结构与宏观性能之间的关系。
2) inducing melting
感应加热熔炼
3) inductive melting
感应熔炼
1.
By applying the cold crucible inductive melting(CCIM) to TiAl-based alloys,the qualities of the melt are able to be improved.
冷坩埚感应熔炼技术提高了钛铝基合金的熔体质量。
4) induction melting
感应熔炼
1.
Distribution characteristic of magnetic field in cold crucible for induction melting;
感应熔炼冷坩埚内磁场的分布规律
2.
The induction melting technology of a cold crucible, and its application field and operational features are reviewed.
综述了冷坩埚感应熔炼工艺的技术特征、适用范围和操作特点;并介绍了多种用途的冷坩埚炉型,工艺参数和能量平衡;指出附加等离子体热源促进了冷坩埚感应熔炼的工业化应用与发展。
3.
In order to solve the problems of vapor pressure and oxidation of Mg, and overcome disadvantages of high requirement of experimental conditions and fussy operation process in traditional single crystal MgB2 preparation method, a new method of using two kinds of eutectic Mg-Cu and Cu-B alloys to synthesize ternary Mg25Cu65B10 alloy by induction melting technology was present in this work.
为了解决MgB2单晶制备过程中存在的镁的蒸气压问题和镁的氧化问题,克服传统制备方法中对实验条件要求高,操作过程繁琐的缺点,本文采用高频感应熔炼技术,通过选取两种共晶成分的Mg-Cu和Cu-B合金,成功熔配成Mg25Cu65B10的三元合金。
5) induction smelting
感应熔炼
1.
Cu-Zn-Sn alloys were prepared by induction smelting and continuous uniform Cu-Zn-Sn alloy thin tape has been fabricated by using melt spinning.
使用感应熔炼法制备Cu-Zn-Sn合金,并利用单辊甩带制备连续均匀的Cu-Zn-Sn合金薄带。
2.
Based on the study on the mechanism of alloy evaporation,Ag-Pd alloy ultrafines have been prepared successfully by the high-vacuum,two-electrode DC Arc Plasma apparatus which is designed and fabricated by our self,using Ag-Pd alloy made by induction smelting as raw material.
以感应熔炼法制得的银钯合金块为原料,采用自行研制的高真空双枪直流电弧金属纳米粉连续制备设备,结合对合金制粉蒸发机制的探讨,成功制得了超细银钯合金粉体。
6) melting in air
大气熔炼
补充资料:等离子感应炉熔炼
plasmainductionmelting,PIM:利用等离子体电弧加热的高温熔炉。用以熔炼高温合金、耐热钢、钨、钼等。
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