austenite former

基本解释奥氏体形成元素

网络释义

1)austenite former,奥氏体形成元素2)austenitic formation,奥氏体形成3)austenite forming,奥氏体成形4)austenite formation temperatures,奥氏体形成温度5)formation of austenite,奥氏体的形成6)austenitic forming diagram,奥氏体形成图

用法和例句

Owing to establish the fundamental theory and correctly select the parameters of heat treatment,the relationship between the steps of austenitic formation process and the critical points of T10A steel has been also analyzed.

采用金相 -硬度法研究了过共析钢 (T10A)的两种不同原始组织的小薄片试样加热到不同温度后的淬火硬度与奥氏体形成过程的关系 ,分析了奥氏体形成的阶段性与钢的临界点的密切关系 ,为其制订热处理工艺参数奠定理论基础。

The back-propagation artificial neural network was established using data collected from domestic and foreign literatures to predict the austenite formation temperatures (Ac_3 and Ac_1) of steels.

根据所收集的试验数据 ,建立了预测钢的奥氏体形成温度Ac3和Ac1点的反向传播人工神经网络模型。

An austenitic forming diagram showing the law and characteristics of the steel has been determined.

利用Formastor全自动相变测定仪研究了7Cr7Mo3V2Si钢在连续加热条件下的相变规律及特点;测定了能反映其相变规律与特点的奥氏体形成图。

Review on the Relation between Heat Treatment and Retained Austenite Formation of Cold Rolled TRIP-aided Steels

冷轧TRIP钢的热处理与残留奥氏体形成的关系

Relation between Processing and Retained Austenite Formation of Hot Rolled TRIP-aided Steels

热轧TRIP钢的加工工艺与残余奥氏体形成的关系

Effect of Alloying Elements on Forming Process of Austenite Dendrites of Cast Iron;

合金元素对铸铁奥氏体枝晶形成过程的影响

Analysis on the Forming and Falling-off Problem of Oxides on the Austenitic Stainless Steel Pipe

奥氏体钢管氧化皮形成与剥离问题的分析研究

Microstructural formation of austenitic stainless steel joint by capacitor discharge welding

奥氏体不锈钢储能焊接头组织形成规律

Austenite decomposition and intragranular ferrite formation in a medium-carbon vanadium-nitrogen microalloyed steel

中碳V-N微合金钢连续冷却奥氏体分解及晶内铁素体的形成

THE EFFECT OF PRIOR AUSTENITIC GRAIN BOUNDARIES ON NUCLEATION OF(225)_γ MARTENSITE IN STEELS

钢中原始奥氏体晶界对(225)_γ马氏体形核的影响

Study of Continuous Cooling after Austenite Deformation of Low Carbon Bainitic Steels;

低碳贝氏体型钢变形奥氏体连续冷却研究

At the earlier stage of eutectic, the enveloped or nor- enveloped frame austenite shell lias formed.

共晶前期石墨球局围形成封闭或不封闭的框架奥氏体壳;

Microstructure Formation and Evolution of Austenitic Stainless Steel during Near-Rapid Solidification

亚快速凝固奥氏体不锈钢组织形成及演化规律研究

a nonmagnetic allotrope of iron that is the basis of austenite; stable between 906 and 1403 degrees centigrade.

无磁性的铁的同素异形体,奥氏体的主要成分,在摄氏度之间保持稳定。

Constitutive characteristic of hot deformation for Cr15Mn9Cu2Ni1N austenitic stainless steel

Cr15Mn9Cu2Ni1N奥氏体不锈钢的热变形本构特性

Static recrystallization behaviors of deformed 42CrMo steel

42CrMo钢形变奥氏体的静态再结晶

a lamellar mixture of cementite and ferrite formed during the cooling of austenite; a micro-constituent of steel and cast iron.

在奥氏体冷却的过程中形成的碳素体和铁素体的层状混合物,是钢和铸铁的微量成分。

STRAIN-INDUCED MARTENSITIC TRANSFORMATION IN 304L AUSTENITIC STAINLESS STEEL UNDER ECAP DEFORMATION

ECAP变形下304L奥氏体不锈钢的形变诱导马氏体相变

Deformation Behaviors of Austenite in a Low Carbon Steel under Various Conditions

低碳钢奥氏体在不同条件下变形时的变形行为

Dynamic recrystallization of hot deformed austenite for microalloyed bainitic engineering steel;

贝氏体非调质钢热变形奥氏体的动态再结晶行为

Deformed Austenite Cooling Transformation and Bainite Transformation in High Pressure of Cr-Mo-V Steel

Cr-Mo-V钢形变奥氏体冷却转变及高压下的贝氏体相变

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