去查网 logo

Eutectic structure

中文翻译共晶组织

同义词释义

    1)Eutectic structure,共晶组织2)eutectic microstructure,共晶组织3)eutectic structure rate,共晶组织率4)eutectic cell structure,共晶团组织5)Abnormal solidification eutectic,非正常共晶凝固组织6)independent melting,共晶组织分层熔化

用法例句

    Effects of Cooling Rate on Eutectic Structure of Zn-0.24Ni Alloy;

    冷却速度对Zn-0.24Ni合金共晶组织的影响

    Effects of neodymium and cooling rate on eutectic structure in AZ91HP magnesium alloy

    Nd与冷却速度对AZ91HP镁合金共晶组织形貌的影响

    Besides,microscopic structure is eutectic structure of γ-.

    结果表明:该涂层与基体呈冶金结合,内部组织均匀细密无缺陷,是固溶了大量Cr的-γFe相与高硬度析出相的共晶组织;其在海水中的耐蚀性远高于0Cr18Ni9Ti不锈钢,两者在海水中均表现为点蚀。

    By means of analysis of solidification process of eutectic microstructure, it is shown that the “high affinity between Sn and RE” leads to the change of contact angle at the three phase junction of S/L interface.

    通过对共晶组织凝固过程的分析 ,发现稀土元素的“亲Sn”现象导致固液界面处三相交汇点接触角的变化 ,并最终促使共晶组织直接在先析出富Pb相上生长 ,从而抑制了原始组织中粗大的富Sn相晕圈的出现 ,实现了金相组织的均匀化。

    The results show that,with Al content increasing,primary phaseα-Mg in as-cast Mg-Al binary alloy decreases,while eutectic microstructure severely increases.

    结果表明:铸态Mg-Al二元合金在含Al(10%~25%,质量分数,下同)范围内,随Al含量增加,α-Mg初晶体积分数逐渐减少,形态由不规则的团絮状变为蔷薇花状,直至小块状;共晶组织体积分数剧增,硬脆相β-Mg17Al12呈网状连续分布,α和β两相以共生生长方式成为片层状共晶组织;ECAP能明显破坏硬脆相β-Mg17Al12网状连续分布,细化共晶组织和初晶α,并能使初晶α中析出弥散细小的β,起到弥散强化作用,使不同Al含量的Mg-Al二元合金不仅抗拉强度得到显著提高,而且塑性获得极大改善,尤其是Mg-15Al合金,ECAP后抗拉强度σb从150MPa提高到269。

    Cast tungsten carbide produced by new nethod featuresstable carbon content,high eutectic structure rate, small eutectic size, low porosity rate, high density and hardness,good wearresistance and long service life.

    新方法生产的铸造碳化钨具有碳含量波动小、共晶组织率高、共晶尺寸小、孔隙率低、密度大、硬度高、耐磨性好和使用寿命长等优点。

    Effects of neodymium and cooling rate on eutectic structure in AZ91HP magnesium alloy

    Nd与冷却速度对AZ91HP镁合金共晶组织形貌的影响

    EFFECTS OF CASTING PROCESS ON THE EUTECTIC MICROSTRUCTURE OF ALUMINUM ALLOY CASTING

    铸造工艺对铝合金铸件共晶组织的影响

    Microstructure and Compressive Properties of DS NiAl-based Eutectic Alloy

    NiAl基定向共晶合金的组织和压缩性能

    Microstructure and Property of eutectic superalloy directionally solidified under high temperature gradient;

    高梯度定向凝固共晶高温合金的组织与性能

    The Effects of Remelting on Microstructures and Mechanical Properties of Hypoeutectic Al-Si Alloy;

    重熔料对亚共晶铝硅合金组织与性能的影响

    Microstructure and Property of Si-TaSi_2 Eutectic in Situ Composite for Field Emission;

    Si-TaSi_2共晶自生复合场发射材料的组织与性能

    Effect of Composite Modifier on the Structure and Properties of Hypereutectic Al-Si Alloy;

    复合变质对过共晶铝硅合金组织及性能的影响

    Investigation of Refinement Means for Microstructure of Hypereutectic Al-Fe Casting Alloys;

    过共晶铝铁合金铸态组织细化途径的探讨

    Influences of Technological Conditions on Hypereutectic Al-Si Alloy Solidification Structure

    工艺条件对过共晶铝硅合金凝固组织的影响

    Investigation on Microstructure and Mechanical Properties of Hypereutectic Al-Si Alloy Produced by Electro-thermal Method

    电热法生产过共晶Al-Si合金的组织与性能研究

    Microstructure and properties of Al-Si hypereutectic alloy with different contents of Mg

    Mg含量对过共晶铝硅合金组织和性能的影响

    Effect of Cr and Mo on Microstructure and Properties of Hyper-Eutectic Al-Si Alloy

    Cr和Mo对过共晶Al-Si合金组织与性能的影响

    Effect of Heat Treatment on Microstructure and Properties of Hyper-eutectic Al-Si-based Alloy

    热处理对过共晶Al-Si合金组织与性能的影响

    Effect of Electromagnetic Vibration on Solidification Structure of Al-Si Hypereutectic Alloy

    电磁振荡对Al-Si过共晶合金凝固组织的影响

    Effect of Cerium on As-cast Microstructure of Hypereutectic High Chromium Cast Iron

    稀土铈孕育对过共晶高铬铸铁铸态组织的影响

    Effect of ultrasonic treatment on microstructures and properties of hypereutectic Al-Si alloys

    超声对过共晶铝硅合金组织和性能的影响

    Effect of Direct Current Electric Field on the Microstructure of Al-10%Si Hypoeutectic Alloy

    直流电场对A1-10%Si亚共晶合金凝固组织的影响

    STUDY OF MICROSTRUCTURES INγ/γ'-αMo DIRECTIONAL EUTECTOID ALLOY INDUCED BY LASER RAPID MELTING SOLIDIFICATION

    γ/γ′-αMo定向共晶合金激光快凝的微观组织研究

全部查询工具

关于我们免责声明联系我们网站地图最近更新

免责说明:本站为非营利性网站,本站内容全部由《去查网》从互联网搜集编辑整理而成,版权归原作者所有,如有冒犯,请联系我们删除。

Copyright © 2020 - 2024 quchaw.com All rights reserved.浙ICP备20019715号