austenite
美 ['ɔstəˌnɑɪt] 
英 ['ɔ:stəˌnɑɪt]
英汉解释
英英解释
例句
The change in austenite grain size of a steel with low sensitivity to weld crack was investigated via high-temperature quenching test.
通过高温淬火试验观察试验钢奥氏体晶粒尺寸的变化情况。
The equilibrium solubility of AlN in austenite at different temperatures and its isothermal precipitation have been studied.
我们已经研究过在不同温度的奥氏体氮化铝的溶解度以及等温过程的沉淀物。
The establishment of the relationship would provide us a new judging rule used in researching creep damage of austenite steel from the . . .
这一关系的确立,为从微观角度研究奥氏体钢的蠕变损伤提供了一种判断依据。
The microstructure and mechanical properties of two high manganese austenite steels during tensile tests at room temperature were studied.
研究了两种不同锰含量的高锰奥氏体钢在室温拉伸变形过程中力学性能和组织的变化。
As the result of strengthening of the matrix of nickel austenite nodular iron, not only . . .
镍奥氏体球墨铸铁的基体得到强化不仅使其耐蚀性能稳定,而且综合性能也得到提高。
The inheritance and aberrance of the mixed original austenite grains are significantly affected by the following temperature parameters.
后续的温度工艺参数只是影响原始奥氏体混晶的遗传或变异。
The existence of intragranular ferrite can refine austenite grains and enhance the strength and toughness of the steel.
通过晶内铁素体的析出细化了晶粒,提高了钢的强度与韧性。
Spheroidal austenite and acicular austenite can be seen during the austenitizing courses at low speed.
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。
As can be seen from the phase chart analysis, the solid solution degree in austenite falls sharply with the descending temperature.
通过相图分析可知,奥氏体中的硫的固溶度随着温度急剧降低。
The different types of austenite in gray iron present different behaviours during the breaking process of the material.
灰铸铁中不同类型的奥氏体枝晶在材料断裂过程中具有不同行为。
These fine precipitates restrain the growth of recrystallized austenite grains, which significantly affect the final microstructure.
这些细小的析出相抑制了再结晶奥氏体晶粒的增长,从而影响了最终金相组织。
The affecting rule of alloy elements on the amounts of retained austenite in austempering transformation was also studied.
还探讨了合金元素对等温转变过程中残留奥氏体量的影响规律。
The valence electron structures of the graphite, alloying austenite, alloying cementite in cast iron phases are researched.
研究并计算了铸铁相石墨、合金奥氏体、合金渗碳体的价电子结构。
Retained austenite reduction and carbide precipitations in the martensite are anticipated by the tempering process.
减少残余奥氏体和马氏体碳化物的降水预计的回火工艺。
The influence of isothermally -quenching temperature on the retained austenite in ADI and mechanical properties of ADI was investigated.
研究了等温淬火温度对等淬球铁中残余奥氏体及其力学性能的影响。
These precipitates inhibit austenite grain growth by pinning grain boundaries leading to refining of austenite and hence ferrite grains.
这些析出的氮化铝抑通过限定边界来制奥氏体的增长,从而细化奥氏体晶粒和和铁素体晶粒。
NEW AUSTENITE-BAINITE STEEL WITH NODULAR EUTECTICS AND ITS IMPACT ABRASIVE WEAR RESISTANCE?
新型团球状共晶体奥氏体贝氏体钢及其抗冲击磨料磨损特性?
The results exhibited that activated energy of austenite grain growth was significantly various at different temperatures.
结果表明,不同温度奥氏体晶粒长大激活能具有明显的差异。
Melting Residual Stress is the main factor Causing Stress erosion damage on Austenite Rustless Steel's Structures.
焊接残余应力是奥氏体不锈钢发生应力腐蚀破坏的重要因素。
the HAZ was martensite and a small amount of residual austenite.
热影响区为马氏体组织和少量残余奥氏体。
The retained austenite is unstable, and will transform into martensite under certain plastic deformation conditions.
这种残余奥氏体稳定性较差,在一定的塑性变形量下,会向较稳定的马氏体转变。
This initial austenite grain size of slab plays an important role for controlling the final microstructure of the strip.
这个初始奥氏体晶粒尺寸对最终钢带的金相组织控制有重要作用。
The dimensional stability of the steel is due to the control of the content of residual austenite.
尺寸稳定性的效果主要是残余奥氏体量的控制。
The hydrogen induced ductility loss decreased with increase of the amount of reverse austenite in the steel.
塑性损减率随钢中逆变奥氏体的增加而降低。
The microstructure of the weld bonds is a combination of martensite, lower bainite and retained austenite.
焊接熔合区组织为马氏体+下贝氏体+残余奥氏体;
The influences of isothermal quenching temperature on the retained austenite and mechanical properties of ADI were studied.
研究了等温淬火温度对ADI中残余奥氏体及其力学性能的影响。
With increasing tempering temperature, the retained austenite decreases.
回火温度升高,其残余奥氏体量逐渐减少。
With increasing quenching temperature, the retained austenite increases.
淬火温度升高,高钒高速钢的残余奥氏体量逐渐升高;
And the retained austenite transforms into martensite fast at the preliminary state with the increase of strain rate.
另得出,应变率越高,初期残余奥氏体向马氏体转变越快。
The influence of scrap steel addition amount on structures and properties of nickel austenite gray iron was investigated.
研究了废钢加入量对镍奥氏体灰铸铁组织和性能的影响。
Except Co and Al, almost all alloying elements dissolved in austenite can improve the stability of supercooled austenite.
除钴和铝之外,除钴和铝之外,几乎所有溶入奥氏体的合金元素都能增强过冷奥氏体的稳定性。的稳定性。
Synopsis This paper discusses the methods to measure the amount of retained austenite in high chromium cast iron.
对高铬铸铁残余奥氏体的几种测定方法进行了比较。
The amount of residual austenite in high vanadium high speed steel was measured by ferromagnetism method.
采用铁磁性法测定了高钒高速钢中残余奥氏体量。
Kinetics of austenite grain growth was analyzed by interrupt quenching at different temperatures.
通过不同温度的中断淬火实验,研究奥氏体晶粒长大的动力学规律。
It demonstrates that the diffusion of Ni element is incomplete and leads to the austenite high in nickel.
结果表明,在常规烧结条件下镍不能充分扩散,使组织中出现富镍的奥氏体。
The residual stress existed in subsurface and the amount of residual austenite were tested using XRD technique.
利用X射线衍射技术测试钢球亚表层的应力分布和残余奥氏体含量。
The reason of temper brittleness belong with bainite ferrite and retain austenite decompose carbide.
500℃回火出现回火脆性,其原因与组织中的贝氏体、铁素体及残余奥氏体分解形成碳化物有关。
The micro structures change of super-high strength of austenite stainless still silk in multi-ply drawing were analysed.
分析了超高强度奥氏体不锈钢丝在多道次拉拔过程中的组织变化。
Either coarse or column austenite grain can decrease the toughness of welding metal, and the ways to improve the toughness of wel. . .
奥氏体晶粒粗大及奥氏体柱状晶都能够降低焊缝的韧性,并提出了改善焊缝韧性的途径。
The tempering process and the sub-zero treatment can control the amount of residual austenite effectively.
回火和深冷处理工艺可以有效地控制残余奥氏体量。
