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   2618耐热铝合金 的翻译结果: 查询用时:0.237秒
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耐热铝合金
相关语句
  2618 heat resistant aluminum alloy
     Flow Stress Behavior of 2618 Heat Resistant Aluminum Alloy under Hot Compression Deformation
     2618耐热铝合金的热压缩流变应力行为
短句来源
     The flow stress behaviors of 2618 heat resistant aluminum alloy over the strain rate range of 0.01s-1 to ls-1 and the temperature range of 400℃ to 470℃ as well as the deformation degree from 20% to 60% have been studied using a Gleeble-1500 hot simulator.
     用Gleeble-1500热模拟机,对高铁、镍含量的2618耐热铝合金的热压缩流变应力行为进行了研究。
短句来源
  heat resistance aluminum alloy 2618
     Study on Microstructures and Mechanical Properties of Heat Resistance Aluminum Alloy 2618
     2618耐热铝合金的组织与力学性能的研究
短句来源
  “2618耐热铝合金”译为未确定词的双语例句
     The microstructures of 2618 aluminum alloy after and before TMA have been observed by TEM, and the refining effects of the TMA on aging precipitates S′in 2618 aluminum alloy have been revealed. The reason for obviously decreasing the PFZ around the grain boundary in TMA 2618 aluminum alloy has been approached, and the thermo-kinetic behavior of the TMA was described.
     采用透射电镜观察了2618耐热铝合金形变热处理(TMA)前后的显微组织,分析了形变热处理对2618铝合金中的时效析出相S′的细化作用,探讨了2618铝合金形变热处理后晶界附近无沉淀析出带宽度明显减小的原因,并对形变热处理的热力学进行了分析。
短句来源
  相似匹配句对
     Flow Stress Behavior of 2618 Heat Resistant Aluminum Alloy under Hot Compression Deformation
     2618耐热铝合金的热压缩流变应力行为
短句来源
     Study on Microstructures and Mechanical Properties of Heat Resistance Aluminum Alloy 2618
     2618耐热铝合金的组织与力学性能的研究
短句来源
     High-Temperature Aluminum Alloys and Their Research Development
     耐热铝合金研究进展
短句来源
     Microstructure of Liquidus Casting Aluminum Alloy 2618
     液相线铸造铝合金2618显微组织
短句来源
     Heatproof Aluminum Alloy And Techniques Of Super - conducting Transmit Electricity
     耐热铝合金和超导输电技术
短句来源
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The strength of the heat-resistant aluminum alloys currently in use remarkably decreases at temperatures exceeding 150℃. At present the heat-resistant aluminum alloy to be used at 250℃ is badly needed. In this paper, the experimental results show that the high-temperature properties of Al-Cu-Mg-Fe-Ni alloys can be markedly improved by the increase in copper content and the addition of manganese.

现有的耐热铝合金在温度超过150℃时,强度显著下降。目前急需一种能在250℃下使用的耐热铝合金。本文试验表明:在Al-Cu-Mg-Fe-Ni系合金中,通过提高铜的含量,并添加锰,能显著提高合金的高温性能。

This paper describes the performance of the heat-resisting aluminium alloy and evaluate its use on the EHV substation equipment buses.It also gives on introduction of the physical characteristics of the heat-resisting aluminium alloy (Aluminc-Zirconi-urn)developed in our country as well as the cost-benefits obtained for its use on the

本文论述了耐热铝合金导线的特性及其在超高压配电装置母线上使用的价值。介绍了我国试制成功的耐热铝合金导线的物理性能和在华东电网超高压配电装置使用后所取得的技术经济效益.

Various whiskers, SiC, Si_3N_4 and Al_(18)B_4O_(33),reinforced Al-8.SFe1 .3V-1 .7Si alloy composites have been prepared by the P / M technique at elevated temperature. The interfacial reaction at the Al_(18)B_4O_(33) interfaces and interfacial reaction product at the SiC or Si_3N_4 interfaces were avoided by employing the alloy matrix without Mg. The strength and modulus of the composites may be obviously improved by incorporating the whiskers in effective sequence:SiC, Si_3N_4 and Al_(18)B_4O_(33). The strength...

Various whiskers, SiC, Si_3N_4 and Al_(18)B_4O_(33),reinforced Al-8.SFe1 .3V-1 .7Si alloy composites have been prepared by the P / M technique at elevated temperature. The interfacial reaction at the Al_(18)B_4O_(33) interfaces and interfacial reaction product at the SiC or Si_3N_4 interfaces were avoided by employing the alloy matrix without Mg. The strength and modulus of the composites may be obviously improved by incorporating the whiskers in effective sequence:SiC, Si_3N_4 and Al_(18)B_4O_(33). The strength of thess compositeswill linearly drop with increasing temperature, yet their service temperature seems to be 50-100 ℃ higher than that of SiCw / 2024Al composite.

采用粉末冶金法在较高的温度下制备了SiC,Si_3N_4和Al_(18)B_4O_(33)晶须增强Al-8.5Fe-1.3V-1.7Si耐热铝合金复合材料,山于采用不含Mg的基体避免了Al_(18)B_4O_(33)晶须界面上出现界面反应和Si_3N_4,SiC晶须界面上出现的界面生成物,所以所有晶须界面都是清洁的.加入晶须可以明显提高材料的强度和模量,三种晶须的增强效果依次为SiC,Si_3N_4和Al_(18)B_4O_(33).这类复合材料的强度随温度的升高呈线性下降,其使用温度可比SiC_w/2024Al复合材料提高50-100℃

 
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