最初,这些合金为奥氏体合金。
例如材料是奥氏体不锈钢。
Examples of such materials are: austenitic stainless steels.
在石墨球的整个表面形成了一层奥氏体壳。
An austenite shell is formed over the entire surface of the graphite nodules.
奥氏体不锈钢包括包装板通常使用冷成型。
Austenitic stainless steel including clad plate shall generally be subjected to cold forming.
我们将为奥氏体不锈钢管的水压试验引进净水。
We shall conduct the clean water for the hydrostatic test of the austenitic stainless steel pipe.
研究了锰对高铬铸铁奥氏体冷却转变过程的影响。
Effect of Manganese on austenite cooling transformation of high Chromium cast iron is investigated.
同时探索出一种新的管线钢原奥氏体晶界腐蚀方法。
A new method for showing the prior austenite crystal boundary corrosion, of pipeline steel has been also supposed.
对高铬铸铁残余奥氏体测定的几种方法进行了比较。
Some methods of retained austenite measurement on high chromium cast iron were compared.
减少残余奥氏体和马氏体碳化物的降水预计的回火工艺。
Retained austenite reduction and carbide precipitations in the martensite are anticipated by the tempering process.
奥氏体稳定化取决于化学稳定化、尺寸稳定化和热稳定化;
The stabilization of austenite depends on the chemical stabilization, the particle sige effect and the austenite thermal stabilization.
贝氏体中的残余奥氏体分解和转变的行为与马氏体中的不同。
The decomposition and transformation of the retained austenite in bainite differ from that in martensite.
慢速加热奥氏体化过程中,观察到球状奥氏体和针状奥氏体。
Spheroidal austenite and acicular austenite can be seen during the austenitizing courses at low speed.
介绍了一种改进的奥氏体不锈钢的双人双面同步钨极氩弧焊工艺。
This article mainly studies one kind improved two person two-sided synchronized GTAW process for the austenite stainless steel.
依靠随机涨落,形成贫碳区,贝氏体铁素体在贫碳的奥氏体中形核。
Carbon-poor area forms by way of random fluctuation and carbon atom diffusion. Bainitic ferrites nucleate in carbon-poor austenite.
同时,初始应变速率和变形温度影响奥氏体晶粒尺寸和析出相的分布。
Meanwhile the initial strain rate and strain temperature affect the austenite grain size and distribution of precipitation phase.
在较高温度时,只存在奥氏体,0.77%的碳溶解在铁里形成固溶体。
At the upper temperatures, only austenite is present, the 0.77% carbon being dissolved in solid solution with the iron.
最后在经典形核理论的前提下讨论了奥氏体形变对铁素体形核率的影响。
The effect of austenite deformation on nucleation rate of ferrite is discussed with classical nucleation theory as well.
就像以前说的一样,当缓慢冷却到这温度时所有剩余奥氏体转化为珠光体。
As before, any remaining austenite transforms to pearlite upon slow cooling through this temperature.
在回火过程中,贝氏体中的奥氏体以扩散转变方式分解为铁素体和渗碳体。
During the tempering process, the austenite in bainite decomposed into ferrite and cementite by diffusion transformation.
由截线及杠杆定律分析可知,低碳铁素体成核并长大,剩下含碳量高的奥氏体。
Tie-line and level-law calculations show that low-carbon ferrite nucleates and grows, leaving the remaining austenite richer in carbon.
研究了工业灰铸铁中枝晶状奥氏体和共晶奥氏体在连续冷却过程中的分解特征。
Transformation characteristics of the dendritic austenite and eutectic austenite in commercial grey cast iron during continuous cooling have been investigated.
由回火温度与硬度变化曲线证实,残余应力重新分布是与残余奥氏体转变相关联。
According to the tempering temperature and hardness curve, the redistribution of residual stress is associated with the transformation of residual austenite.
研究表明:在这种新型镍铸铁中除了石墨和奥氏体基体外,还有合金渗碳体存在;
Investigation showed that, in this new nickel cast iron, besides graphite and austenitic base, had yet alloying cementite.
用微分热分析-液淬法研究几种常用合金元素对奥氏体枝晶形成与长大形态的影响。
The effect of some common alloying elements on austenite dendrites forming had been analyzed by differential thermal-liquid quenching analysis.
微区分析发现畸变的共晶奥氏体组织与球墨铸铁低韧性之间存在着直接的对应关系。
The analysis of micro zone discovers that there are directly relationships between the distortion structure of eutectic austenitic and lower ductility.
针对奥氏体不锈钢材料,系统地开展了YAG-MAG激光电弧复合焊工艺研究。
The process investigation on hybrid YAG - MAG laser arc welding of austenite stainless steel is systematically developed.
针对奥氏体不锈钢材料,系统地开展了YAG-MAG激光电弧复合焊工艺研究。
The process investigation on hybrid YAG - MAG laser arc welding of austenite stainless steel is systematically developed.
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