贝氏体

而工艺c使已转变的马氏体和贝氏体产生自回火。

And the transformed martensite and bainite are self tempered by process c.

X射线衍射法鉴别粒状贝氏体组织

Granular bainite D is crimination by X-ray diffraction method

Fe－C合金贝氏体铁素体的相变基元与类马氏体形貌贝氏体的形成

Bainitic transformation units and formation of martensite-like bainite in Fe-C alloys

Fe－C－Si合金上贝氏体碳化物析出源的研究

The Investigation on the Source of Bainitic Carbide Precipitation in Fe-C-Si Alloy

R相的形态类似于上贝氏体或魏氏组织。

The morphology of R-phase is resemblance to upper bainite or Widmanstatten ferrite .

ω为ω碳原子上的取代基数.奥氏体强化及Fe，C扩散对贝氏体相变的影响

Effects of austenite strengthening and the diffusion of iron and carbon atoms on bainitic transformations

贝氏体铁素体和Cu－Zn－Al合金中有丰富的台阶和巨型台阶。

There are plenty ledges and super ledges in bainitic ferrite and Cu-Zn-Al alloys .

添加Mo元素获得的贝氏体组织最多。

Most of bainite obtained by the addition of Mo element .

含Si钢下贝氏体转变初期碳原子的调幅分解

Spinodal decomposition of carbon at initial stage of lower bainite transformation in a Si-containing steel

贝氏体相变区等温停留对低合金TRIP钢相组成的影响

Effect of isothermal holding in bainite transformation region on phase constitutions of low alloy TRIP steel

同时加入Mo、Ni元素时，烧结态试样中的贝氏体组织最多。

Adding Mo Ni elements at the same time , get the most bainite .

Cu－Zn合金中贝氏体及平衡相的加厚和剪切应力场

Thickening of bainite and equilibrium phase and shear stress field accompanying bainite growth in a Cu-Zn Alloy

结果表明，淬火速度小于1000℃／h时，形成马氏体＋贝氏体混合组织。

The results indicate that the martensite and bainite mixed structures form at a quenching rate less than 1000 ℃ / h.

M2高速钢马氏体-贝氏体复相热处理

Study on Dual-phase Heat Treatment of Martensite and Bainite of the M2 High Speed Steel

使用TEM研究了钢中贝氏体的精细结构及碳化物的形貌与分布，加入微量元素使贝氏体铁素体组织明显细化。

The fine structure of bainite and the morphology and distribution of carbides in steels were investigated with TEM .

用示差扫描量热法（DSC）、电阻测量和透射电子显微镜对Cu－Zn－Al－Mn合金高温时效的贝氏体相变进行了研究。

The bainitic transformation in Cu-Zn-Al-Mn alloys has been investigated by means of DSC , electrical resistance measurement and electron microscope .

钢中贝氏体转变的开始温度Bs与转变驱动力

Bs Temperature and Driving Force of Bainite Transformation in Steels

对含Si合金钢两相（马氏体M，贝氏体B）区系列等温淬火显微组织中残留奥氏体稳定性进行了研究。

The retained austenite stabilization in isothermal quenching microstructure at duplex phase ( martensite and bainite ) region of an alloy steel containing Si was studied .

本文作者定义贝氏体为：在Ms温度以上，经扩散相变的产物，多呈片状，形成时会在自由表面上呈现帐篷形浮突。

The present author defines the bainite as product of diffusional transformation usually with plate-shape , presenting tent-shaped relief on free surface during the formation .

探讨了CuZnSn合金在淬火马氏体态经形变后，在逆相变过程中的贝氏体转变机机制。

The mechanism of the Bainite transformation during inverse phasetransition process for the quenching martensite state after deformation in Cu-Zn-Sn alloys is investigated .

使用TEM和HREM分别对贝氏体铁素体和Cu－Zn－Al合金贝氏体台阶形貌和界面结构进行了观察。

The morphologies of ledges and interfacial strictures in bainitic ferrite and in bainite of Cu-Zn-Al alloys with TEM and HREM have been observed .

Cu-Zn-Al合金中贝氏体相变的机制及应用

Mechanism and Application of the Bainitic Transformation in Cu-Zn-Al Alloys

用CCT图研究Mo-Nb钢铸态贝氏体组织的形成

Study on Formation of As-Cast Bainite in Mo-Nb Steel by CCT Diagram

Si-Mn贝氏体/马氏体耐磨铸钢等温热处理工艺及性能研究

Study on Isothermal Quenching Process and Property of Si-Mn Bainite-Martensite Wear-resisting Cast Steel

Fe-Ni合金预贝氏体转变的研究

Study on Pre-bainitic Transformation in Fe-Ni Alloy

模拟处理试样主要是BI型贝氏体.后者与低碳低合金钢中的BI型贝氏体不一样，表现出较高的回火稳定性。

TEM observation shows that the structure of the latter is mainly lath martensite , and that of the former is B_I - bainite , which possesses higher temper stability than those found in low carbon low alloy steels .

Cu-Zn-Al合金贝氏体及马氏体表面浮突的扫描隧道显微镜研究

Investigation of surface relief with Bainite and martensite transformations in Cu Zn Al alloys with scanning tunneling microscopy

此外，用预测精度较高的人工神经网络模型计算了合金元素Si和B的含量对贝氏体开始转变临界冷却速度的定量影响，计算结果与试验结果相符合。

The quantitative influences of alloying elements content of Si and B on critical cooling rate of bainite transformation are calculated with the specific artificial neural network model , and the predicted results accord well with experimental ones .

RPC和RQ钢板回火前的组织均为板条状贝氏体和少量粒贝的复合组织。

The main microstructures of RPC steel and RQ steel both are bainite and little granular bainite before tempering .

可利用马鞍型曲线调整AR与M及B的含量配比，获得无变形或强韧性配合最佳的准贝氏体等温淬火工艺。

By adjusting the content ratios of AR / M and AR / B on the saddle-like curve , an isothermal quenching of the less deformation or a meta-bainitic isothermal quenching with strength-toughness optimized combination can be achieved .