铁基高温合金

介绍了一种新型铁基高温合金C286，经过不同的固溶处理及时效工艺，获得了细小弥散的球形γ′相；

Fine and disperse γ′ phase in iron_base high temperature alloy C_286 is formed through different solution treatment and aging processes .

Nb在高Ti中Al铁基高温合金的作用

Effect of Niobium on Ferrous Base Superalloy with High Titanium and Medium Aluminium

Al、Ti、Nb对铁基高温合金组织与性能的影响

Effect of al , ti and Nb on the structure and properties of Fe-base Superalloy

Nb在铁基高温合金中的作用

Effect of Nb on strengthening of Fe-base superalloy at medium high temperature

研究了两种微量杂质元素含量不同的新型含Nb铁基高温合金（记为A1和A2）的力学性能。

The effects of content of mini-impurity element on mechanical properties of advanced Fe-based superalloy ( A1 and A2 ) containing Nb have been studied in this paper .

氧化物弥散强化（OxideDispersionStrengthened，ODS）铁基高温合金具有良好的高温拉伸、蠕变性能和抗中子辐射肿胀性能，是一类在航空航天、核工业等具有良好应用前景的先进结构材料。

Oxide dispersion strengthened ( ODS ) iron-based alloys are the most promising class of materials with a potential to be widely used in aerospace and nuclear industry owing to superior properties in tensile performance , creep property and neutron irradiation-resistance at high temperatures .

利用性能测试、相分析、X射线及电子衍射、能谱分析，特别是扫描电镜观察析出相的三维形貌等方法研究了一种铁基高温合金750℃长期时效后组织结构对性能的影响。

The effect of microstructure on mechanical properties of an iron-base superalloy after prolonged exposure at 750 ℃ has been investigated by means of mechanical properties test , phase analysis , X-ray or electron diffraction , EDS and , especially , SEM observation on 3-dimensional morphology of the phases precipitated .

铁基高温合金中μ相和σ相引起的晶界脆化

Grain boundary embrittlement by μ and σ phases in iron-base Superalloys

新型铁基高温合金成分及组织分析

The Composition of and Microstructure Analysis on the New Fe-based Refractory Alloy

添加铌氮的铁基高温合金晶界相分析

Intergranular Precipitate Analysis for Niobium and Nitrogen Bearing Ferrous High Temperature Alloy

铁基高温合金GH109长期时效的研究

Discussion on the Long-Term Ageing of GH 109 Fe-Base Superalloy

铁基高温合金；氧化行为；氧化膜；氧化机理；

Fe-based super alloy ; oxidation behavior ; oxide layer ; oxidation mechanism ;

影响一种铁基高温合金高温塑性的几个因素

The Effects of Some Factors on High Temperature Ductility of a Fe-based Superalloy

研究铁基高温合金粉末模压成形致密化过程中的影响因素和作用机理。

Influences of die wall lubrication on mechanical properties of iron-based superalloy powder compacts ;

一种铁基高温合金的周期蠕变

Cyclic creep study on an iron-base Superalloy

一种铁基高温合金750℃长期时效的组织对性能影响的研究

Effect of microstructure on mechanical properties of an iron-base superalloy after 750 ℃ prolonged exposure

铁基高温合金涡轮盘的超转超温试验及解剖分析

Overspeed and overtemperature tests and dissection examination of the discs made of a Iron-Nickel Base Superalloy

本文首先综述了铁基高温合金、机械合金化（MA）和MA铁基高温合金的研究现状。

In this thesis , the development of iron – based superalloys , and mechanical alloying ( MA ) and MA iron-based superalloys were reviewed .

研究了新型铁基高温合金中各合金元素的成分含量及作用，通过理论分析和实验过程找到各种合金元素的最佳配比，并进行合金化设计。

This paper studies on the contents and functions of each alloying agent in the new Fe-based refractory alloy , through theoretical analysis and experimental process , obtains the optimum mixture ratio of each alloying agent and makes the alloying design ;

本文根据相关资料，并针对高温耐磨堆焊的特点，确定了Cr-B-W-V系多元复合强化铁基高温耐磨堆焊合金粉末的最初配方。

In accordance with corresponding informations , and in view of the characteristics of high temperature-wear-resistance , the initial prescription of Cr-B-W-V system multielement composite strengthening high temperature-wear-resistant iron base surfacing alloy powder is determined .

针对上述问题，本文将正交回归设计的方法与试验相结合，成功地研制出了一种Cr-B-W-V系多元复合强化铁基高温耐磨堆焊合金。

To solve the problem above , in this paper , we have successfully developed one kind of Cr-B-W-V system multielement composite strengthening high temperature-wear-resistant iron base surfacing alloy , combining the method of orthogonal regression design with experiments .

喷射成形技术在铝基合金、铁基合金、高温合金、铜合金及复合材料等方面都得到了广泛的应用。

Spray forming has been widely used in aluminum-iron-copper-based alloys , high temperature alloys and metal composites .

其中以铝基合金、铁基合金、高温合金及铜合金方面的研究最为活跃。

The most active research has been applied to aluminium , iron , copper based alloys and superalloy .

GH696铁基时效硬化型高温合金的研究

Study on Age Hardening Type of Iron - Based High Temperature Alloy