耐热合金

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  • heat-resisting alloy
耐热合金耐热合金
  1. 稀土元素对离心铸造耐热合金管件持久性能的影响

    Effects of Rare Earth Elements on Stress Rupture Property of Centrifugal Cast Heat-Resisting Alloy Tube

  2. 在Fe-Cr-Ni奥氏体耐热合金中加入不同量的混合稀土元素,在1050℃时进行持久试验。

    Different amounts of mixed rare-earth ( RE ) metals were added in Fe-Cr-Ni heat-resisting alloy . Stress rupture test at 1050 ℃ shows that RE could improve considerably the stress rupture property .

  3. 研究表明:1随着Ti元素的加入,耐热合金的组织得到了明显的细化。

    We include : 1 When Ti was added to the heat-resistant conductive Aluminum Alloy , the microstructure of alloy could be refined significantly .

  4. Fe3Al与高温耐热合金的钎焊性能研究

    The Experimental Research on Brazing Process of Fe_3Al and High Temperature Heat-resistant Alloy

  5. 讨论了Al2O3砂轮磨削耐热合金时磨削比低、表面质量差的原因。

    The causes resulting in a bad surface integrity and low grinding ratio during grinding superalloys by using Al2O3 wheels have been discussed .

  6. Al-Fe合金是一种新型的轻质耐热合金。

    Al-Fe alloy is a new type of lightweight heat resistant alloy .

  7. 在相同切削条件下,刀具A的切削性能比刀具B更好;其切削性能良好,比起含高铬镍的耐热合金来,成本极低。

    Tool A behaved higher cutting performances in comparison with Tool B at the same cutting conditions . Its machinability is fair and its all over cost is exceedingly low in comparison with that of high Cr-Ni refractory alloys .

  8. Al-Cu-Mg-Ag系高强耐热合金的热加工工艺研究

    Hot Working Process of a High Strength Heat Resisting Al-Cu-Mg-Ag Alloy

  9. Fe-Cr-Mn耐热合金的热分析研究

    A thermal analysis study of Fe-Cr-Mn heat resistant alloy

  10. Fe-Cr-Ni耐热合金机匣毛坯自由锻新工艺

    A New Free Forging Technology on Blank of Case of an Aircraft of Fe-Cr-Ni Base Superalloy

  11. 铸造Fe-Cr-Ni-Al耐热合金氧化动力学分析

    Study on Oxidation Kinetics of Fe-Cr-Ni-Al Heat-resistant Cast Alloys

  12. 铸造Fe-Cr-Ni-Al双相耐热合金的研制

    Development of Casting Dual-Phase Heat Resistant Alloy Fe-Cr-Ni-Al

  13. 新型PFT-1高强度耐热合金钢的应用

    Application of new high strength heat-resistant alloy steel PFT-1

  14. Fe-Cr-Ni-N系耐热合金的研究概况

    Reserch General Situation of the Fe-Cr-Ni-N Heat-resistance Alloy ` s Properties of Oxidation Resistance

  15. 由于固体氧化物燃料电池(SOFCs)工作温度的降低,耐热合金取代传统的陶瓷材料将成为连接板的新一代材料。

    With the operating temperature reduction of SOFCs , the heat-resistant alloys will replace the traditional ceramic material and become the new generation material for connection board .

  16. 最适宜加工SUS304,因可耐尔镍基耐热合金等难加工材料与SS400等软材料。

    It is suitable for processing some hard processing material such as SUS304 , refractoloy and some soft materials such as SS400 etc.

  17. 耐热合金与铜扩散焊的初步研究

    Preliminary Study on Diffusion Welding of Heat Resistance Alloy to Copper

  18. 熔融玻璃对耐热合金的腐蚀作用

    The corrosion of the molten glass on the heat resistant alloys

  19. 铁基耐热合金炉管σ相的研究

    An Investigation of Sigma Phase in Heat Resisting Iron Base Alloy Pipe

  20. 玻璃模具用耐热合金铸铁的试验研究

    Study on Heat Resistant Cast Iron for Glass Moulds

  21. 铁基高铬镍耐热合金焊接工艺

    Welding Process of Heat-resistance Ferroalloy with High Cr-Ni Content

  22. 耐热合金球墨铸铁组织和耐热性能的试验研究

    Experiment Research on the Structure and Properties of Heat Resistance Alloy Ductile Iron

  23. 萃取浮选光度法测定耐热合金中痕量磷

    Extraction Flotation Spectrophotometric Determination of Trace Phosphorus in Superalloy

  24. 激光涂覆耐热合金的试验研究

    Study on Laser Coating with Heat Resistant Alloy

  25. 耐热合金球铁的研究

    The Invention of Ball The Study on the Heat Resistant Alloy Ductile Cast Iron

  26. 高温碳化环境对镍-铬-铁基耐蚀耐热合金的组织和性能的作用

    Effect of High Temperature Carbonaceous Environment on the Structure and Property of a Ni-Cr-Fe Base Corrosion-Heat-Resisting Alloy

  27. 耐热合金的新防护层

    A New Coating of Superalloy

  28. 低速铣削耐热合金及钛合金,也可加工玻璃钢,尤适合做切断刀。

    Slow cutting and milling of refractory steel , titanium alloy and fibreglass-FRP , especially for cut-off blades .

  29. 长期高温服役的12%Cr耐热合金钢性能退化与恢复

    Property Degradation and Restoration of 12 % Cr Heat-Resistant Alloy Steel for Long-term Service at Elevated Temperature Exposure

  30. 溶剂萃取分离-火焰原子吸收光度法测定耐热合金中的痕量铅

    Determination of Trace Amounts of Lead in Superalloys by Flame Atomic Absorption Spectrophotometry after Separation by Solvent Extraction