分析了制备合金的组织和性能特点。
分析了连铸连轧铝坯的组织和性能特点。
The structure and properties of continuous cast rolled aluminium stocks were analysed.
同时,对扩散层的组织和性能进行了研究。
The microstructure and the properties of nickel diffusion layer were also investigated.
对注入表层的成分、组织和性能进行了分析。
The composition, microstructure and property of the implanted layer were analyzed.
对钛对灰铸铁组织和性能作用的机理提出了看法。
The mechanism of the effect of titanium on structure and properties of gray iron was proposed.
结果表明,深冷处理能改善铅黄铜的组织和性能。
The results show that cryogenic treatment can improve the microstructure and properties of Pb brass.
实验探索了铜对含硼球墨铸铁组织和性能的影响。
The effects of copper on structures and properties of boronbearing ductile iron were studied.
分析了热处理工艺、显微组织和性能之间的关系。
The relation of properties to heat treatments and microstructure was discussed.
研究了粒化处理工艺对轧辊用高铬钢组织和性能的影响。
The effects of granulation process on the microstructure and properties of high chromium steel for rolls were studied.
研究了废钢加入量对镍奥氏体灰铸铁组织和性能的影响。
The influence of scrap steel addition amount on structures and properties of nickel austenite gray iron was investigated.
研究了合金化和球化工艺对超高碳钢组织和性能的影响。
The influence of alloying and spheroidization process on microstructure and mechanical properties of UHCS is investigated.
研究了钎焊温度和保温时间对钎焊接头组织和性能的影响。
The influence of brazing temperature and holding time on microstructure and tensile strength was studied.
本文介绍了铜在球铁中的加入工艺及其对组织和性能的影响。
The copper- adding process and its effect on structure and properties of nodular iron was introduced.
研究了锑、锌、锰等合金元素对锑青铜的组织和性能的影响。
The influence of antimony, zinc, and manganese on the structure and property of antimony bronze is studied.
分析讨论了正火改善组织和性能的机制及正火工艺的经济性。
The principle improving microstructure and mechanical properties after normalization, and the economy of normalization are discussed.
试验表明,不同含量的钛对灰铸铁组织和性能产生不同的影响。
Experiments showed that the titanium of different contents had varied influences on the structure and proper-ties of gray iron.
热影响区的热循环是决定焊后热影响区组织和性能的重要因素。
Thermal cycling is an important factor to determine structure and property of HAZ after welding.
应用金相技术研究了热镀铝工艺对镀铝钢带组织和性能的影响。
Effect of aluminium coating process on the structure and properties of aluminized steel strip was studied using metallographic technique.
通过熔凝后的组织和性能变化,研究了熔凝处理对45钢的影响。
It was studied that Laser melting treatment 45 steel was effected through transformation of microstructure and property.
研究了稀土-钛-氮复合变质处理对高硼合金钢组织和性能的影响。
The influence of rare earth, titanium and nitrogen on the structures and properties of high boron alloy steel was researched.
研究了不同热处理温度对爆炸焊接复合钢板结合界面组织和性能的影响。
The influence of heat treatment temperature on the binding interface morphology and properties of explosive cladding steel plate was studied.
研究了电弧功率、喷涂距离和等离子气体流量对涂层显微组织和性能的影响。
The effects of the plasma power, spraying distance and plasma gas flow rate on the microstructure and properties of the coatings were investigated.
研究了均匀化处理、固溶时效、冷变形时效等对铬青铜显微组织和性能的影响。
The microstructure and properties of chromium bronze after homogenizing treatment, solid solution and aging treatment, cool deformation and aging was studied.
研究了淬火温度、淬火冷却方式和回火温度对高铬铸铁轧辊组织和性能的影响。
The influences of quenching temperature, cooling pattern and temper temperature on the structures and properties of high chromium cast iron roll were investigated.
研究了1420铝锂合金均匀化热处理后不同的冷却方式对铸锭组织和性能的影响。
The effects of different cooling manners on the structure and properties of aluminum-lithium alloy 1420 ingot as after homogenization treatment were investigated.
研究了风冷热处理对低牌号球墨铸铁(QT 450 - 10)组织和性能的影响。
The effect of wind cooling on microstructure and mechanical properties of nodular cast iron (QT450-10) was investigated.
分析了变形方式和变形程度对大型锥环形锻件组织和性能的影响并制定较佳锻造工艺。
The effect of deformation mode and degree on the structure and properties of large conical ring forgings was analyzed. An optimal forging process was drawn up.
试验表明:稀土及其复合孕育剂能有效地消除微量元素的危害,改善铸铁的组织和性能。
It was showed by experiment that re and RE-containing inoculant could effectively eliminate the harmful effects of trace elements, and improve the structure and properties of cast iron.
激光冲击硬化是通过在材料表层内形成冲击波而引起“损伤”来改变表层的组织和性能。
Laser shock hardening may change the structure and properties through forming shock wave and causing damage in the surface layer of metal.
激光冲击硬化是通过在材料表层内形成冲击波而引起“损伤”来改变表层的组织和性能。
Laser shock hardening may change the structure and properties through forming shock wave and causing damage in the surface layer of metal.
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