1)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。
英文短句/例句
1.medium frequency coreless induction melting furnace中频无心感应熔炼炉
2.frequency crucible induction melting furnace频率坩埚感应熔炼炉
3.mains frequency coreless induction melting furnace工频无心感应熔炼炉
4.Arc Discharge in the Vacuum Induction Melting and its A voidance真空感应熔炼中弧光放电及解决办法
5.VIM Refining Extra-Low Oxygen Steel using CaO Crucible用氧化钙坩埚真空感应熔炼超低氧钢
6.Influence of Oxygen Contamination from Crucible Material on Deep Deoxidation of Molten Steel during Vacuum Induction Melting;真空感应熔炼过程炉衬供氧对钢液深脱氧影响
7.Improvement of Casting Product Quality by Introduction of Middle Frequency Induction Technology;引进中频感应熔炼技术提高铸件的产品质量
8.Technological research on 32CrMnSi2Ni6MoV with low gas content by vacuum induction melting真空感应熔炼低气体含量32CrMnSi2Ni6MoV的工艺研究
9.Study on Desulphurization Process in Vacuum Induction Melting GH4169 Alloy for Turbine Disk涡轮盘用GH4169合金真空感应熔炼脱硫工艺研究
10.Deoxidizing Dynamics of Refining Extra-Low Oxygen Steel during VIM in CaO Crucible用氧化钙坩埚真空感应熔炼超低氧钢的脱氧动力学
11.Study on Vacuum Induction Melting and Jet Casting Process of Pt-10Pd-20Ag AlloyPt-10Pd-20Ag合金的真空感应熔炼和喷铸成形工艺的研究
12.Granularity Proportioning of Lining of Intermediate Frequency Induction Furnace and Service Life中频感应熔炼炉砂型炉衬材料的粒度配比与使用寿命
13.Study on Smelting Al-Mn-Si Alloy in Induction FurnaceAl-Mn-Si合金的感应炉熔炼研究
14.The cupola-induction furnace duplex melting process can be used to increase the inoculation effect.采用冲天炉感应炉双联熔炼能提高孕育效果。
15.Numerical Simulation of Thermal and Flow Fields in Induction Skull Melting Process;感应凝壳熔炼过程温度场及流场耦合数值模拟
16.Process Control of Low-Phosphorus and Sulfur Alloy Steel Melting by Basic Induction Furnace碱性感应电炉熔炼低磷硫合金钢的工艺控制
17.Preventive Measure of Surge During Albronze Melting by Intermediate Frequency Induction Furnace;中频感应炉熔炼铝青铜过程中防止铜水冒涨的办法
18.Smelting of high nitrogen martensitic stainless steels by vacuum induction furnace under near normal protective atmosphere真空感应炉近常压气氛保护熔炼高氮马氏体不锈钢
相关短句/例句
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。
3)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。
4)induction furnace感应炉熔炼
1.Heat transfer in induction furnace was simplified and mathematical model was established.进行感应炉熔炼中传热过程的简化 ,建立数学模型 ,用数值方法计算出炉内金属炉料在各时刻的温度分布以及在熔化发生时的温度分布和相界面的移动特性。
2.According to smelting in induction furnace, The lining made of quartz and banxite often product glutinous.针对使用感应炉熔炼,用石英砂、镁砂及铝矾土制作的炉补易发生粘渣情况,分析了产生的原因,提出了相应的对策。
5)induction melting furnace感应熔炼炉
6)Induction Melting感应熔炼法
1.1) were synthesized by induction melting.采用感应熔炼法制备出两种镁基储氢合金,即Mg2Ni和Mg2Ni0。
延伸阅读
感应熔炼感应熔炼induction smelting ganying rong}ian感应熔炼(induetion smelting)在感应电炉中利用电磁感应和电热转换所产生的热量处理或提取金属的电热冶金方法。 与别的电热冶金方法相比,感应熔炼的特点有:没有碳质电极和电弧下的高温区,冶炼过程中不会使熔炼金属增碳和吸入解离的气体分子,因此能熔炼出含气体极低的无碳或超低碳的特种合金和钢;交变磁场对增竭中的金属液具有电磁搅拌作用,能加速冶金反应的彻底完成,彻底除去金属中的气体和夹杂物,并能使熔池温度和成分均匀;熔池中液态金属和炉渣界面反应的单位面积小,加热金属的热量又是由金属内部电磁感应电流转换产生的,因此能减少易挥发和易氧化组分的烧损;功率调节简便,炉温易于控制,容易实现真空或特殊气氛下的冶炼过程。 感应电炉按炉衬(增竭)耐火材料的性质,分为酸性和碱性感应电炉两类;按炉子的电源频率(它根据炉料的性质、尺寸和炉子容量来决定),分为高频(10一300kH:)、中频(0.15~lokH:)和工频(50或6oH:)感应电炉三类;按炉子的构造特点或电磁原理,分为有芯(闭槽式)和无芯(钳竭式)感应电炉两类。最后这种分类能较好体现感应熔炼实际情况的应用。有芯感应电炉由于感应器内有铁芯而能减少漏磁,有利于提高功率因数和电热效率,但熔炼温度较低,主要适用于铸铁、有色金属及其合金等的熔炼。无芯感应电炉感应器内没有铁芯,漏磁较严重,电热效率低,但熔炼温度较高,主要用于熔炼钢和合金,特别适用于熔炼高级优质合金钢和特种合金。 工作原理感应电炉类似一台变压器。其感应器为一次绕组,金属炉料本身或铁芯为二次绕组和负载,感应器和炉料之间为耐火增竭熔池(图1)。当感应器接通电源时,在其中间便形成交变磁场,使处在此磁场中的金属炉料内部产生感应电动势和感应电流,进而依赖金属炉料的电阻,按焦耳一楞次定律,将电能转换为热能,用以加热和熔炼金属。
