共查询到16条相似文献,搜索用时 62 毫秒
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含硅低碳贝氏体钢冷却速度与组织的关系 总被引:2,自引:0,他引:2
研究了低碳含硅贝氏体钢冷却速度对组织的影响。实验发现,在贝氏体中温区可分别转变为粒状贝氏体、粒状组织、混合组织。粒状贝氏体与粒状组织中都存在(M-A)岛。随冷速增加,岛的平均直径减小,岛的形状由颗粒状向条状、甚至膜状转变。 相似文献
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采用Nb和B合金化.在热轧状态下可得到由贝氏铁素体基体和均匀分布的M/A组元组成的粒状贝氏体组织。在这样的组织转变强化机理作用下,即使C含量圾低也可获得良好的强韧性能。研究发现γ中的固溶Nb和游离态B是粒状贝氏体形成的先决条件。而且B含量对获得完全贝氏体转变强化效果有一个临界值。B的临界值随着C含量的增加而增加。由于在γ中形成了B的C化物或固溶Nb含量减少.因而C削弱B促进贝氏体转变的效果。Mn、Mo和Ni对γ转变的影响和Nb、B的作用是类似的。说明这些合金元素对Bs温度影响的参数Mneq也由此产生了.贝氏体钢的强度和Bs温度成反比的关系得到证实。 相似文献
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研究Al预脱氧对Ce处理钢夹杂物和显微组织的影响,利用热力学计算、带能谱的扫描电镜和DIL805A热膨胀仪检测进行了对比研究。得到如下结论:Ce处理后钢中的主要夹杂物从MnS转变为Ce2O2S+MnS,Al脱氧能使Ce处理钢中夹杂物转变为CeAlO3+Ce2S3+MnS。Ce处理C-Mn钢连续冷却过程有利于获得晶内铁素体的冷速为2~8℃/s。Al脱氧能改变诱导晶内铁素体形核的核心夹杂物种类,诱导铁素体形核的能力降低,且Al能够使Ce处理钢连续冷却组织转变(CCT)曲线向左上方移动,促进铁素体在晶界形核,不利于Ce处理后晶内铁素体的形成。Al脱氧Ce处理C-Mn钢在冷速为2~5℃/s时,由于夹杂物核心成分的改变与Al合金化作用导致晶内铁素体含量较未用Al脱氧Ce处理钢少。 相似文献
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YI Hai-long DU Lin-xiu WANG Guo-dong LIU Xiang-hua 《钢铁研究学报(英文版)》2006,13(3):36-39,67
Utilizing Gleeble-1500 thermomechanical simulator, the influences of hot deformation parameters on continuous cooling bainite transformation in Nb-microalloyed low carbon steel were investigated. The results indicate that bainite starting temperature decreases with raising cooling rate and increases with increasing deformation temperature. Deformation has an accelerative effect on the bainite transformation when the specimens are deformed at 950 ℃. When the deformation temperature increases, the effect of deformation on bainite starting temperature is weakened. The amount of bainite is influenced by strain, cooling rate, and deformation temperature. When the specimens are deformed below 900 ℃, equiaxed ferrites are promoted and the bainite transformation is suppressed. 相似文献
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中碳钢形变及冷却过程中的组织演变 总被引:1,自引:0,他引:1
热模拟单向压缩下,中碳钢形变温度低于Ad3(786℃)点时,析出形变诱导铁素体(DIF),DIF量随形变温度降低而提高;在低于750℃形变时,DIF量远高于平衡态铁素体含量54%。DIF析出时碳原子高度富集在铁素体晶界和铁素体/奥氏体界面。形变后在低于A1(719℃)温度等温或控冷过程中。过冷奥氏体将发生不同类型的转变:高于Ad3形变试样中,奥氏体转变为铁素体+片层状珠光体;低于Ad3点但高于Ar3(645℃)点形变时,未转变奥氏体转变为铁素体+片层状珠光体+晶界渗碳体;稍高于Ar3点形变时,将获得铁素体+弥散渗碳体的球化组织。 相似文献
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The growth of proeutectoid ferrite in Fe-0.15%C-0.8%Mn carbon steel during continuous cooling process was observed in-situ and tracked dynamically by using a high-temperature confocal scanning laser microscope (HTCSLM), and the growing process was also investigated. The growth regularity of proeutectoid ferrite plates within austenite was obtained by analyzing the growth fashions and directions and quantitatively studying the growth rates. The results show that the proeutectoid ferrite plates grow in the fashion of creeping, twisting, branching off and deflection within austenite grain. The proeutectoid ferrite plates can grow up along preferential orientation but not strictly. Its growth direction fluctuates and changes in a small range. The growth rate also changes with the change in growth fashion and direction. When the proeutectoid ferrite grows in the fashion of deflection, the average growth rate of proeutectoid ferrite before its deflection is about 61.9, and 46.2 μm/s after the 15° deflection. At the beginning of proeutectoid ferrite growing, there is a fast growing stage. As the tip of proeutectoid ferrite extends forward continuously, the growth rate will slow down. Therefore, it will induce the proeutectoid ferrite to deflect and grow along another favorable direction, then it will grow rapidly again. 相似文献
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Effects of Deformation on Bainite Transformation During Continuous Cooling of Low Carbon Steels 总被引:4,自引:0,他引:4
ted alot of interests of metallurgical researchers.Aswell known,the steels with ultra-fine grains havepoor work hardening ability and high yield ratio[1].This problem can be solved through complexstrengthening mechanism in which some bainite isintroduced to ferrite matrix with suitable grain size.So it is necessaryto studythe transformation of aus-tenite to bainite inlowcarbon steels during continu-ous cooling after deformation.Most of the research works[2-4]about the trans-formation fromauste… 相似文献
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10MnMoNiNb钢形变奥氏体连续冷却相变规律和显微组织 总被引:3,自引:0,他引:3
在Gleeble1500热模拟机上,利用热膨胀法建立了10MnMoNiNb钢在800℃变形50%后的连续冷却相变曲线(动态CCT曲线),并采用光学金相和TEM方法分析了在不同冷速条件下,形变奥氏体的相变产物。结果表明,钢的相变组织主要由冷速决定,快冷显著抑制先共析铁素体相变,中温相变产物为贝氏体组织,其中贝氏体铁素体为针状铁素体和粒状铁素体,均含有较高密度的位错和M/A岛状组织,并且在中温转变时无明显的碳化物生成。 相似文献