共查询到16条相似文献,搜索用时 46 毫秒
1.
2.
低碳钢先共析铁素体和形变诱导铁素体的相变机制、组织和性能 总被引:1,自引:1,他引:0
通过Gleeble 1500热模拟机对Q235钢加热至950℃ 5 min;1℃/s冷至855℃ 30 s,以应变速率15 s-1,进行80%压缩,淬火,获得形变诱导铁素体组织,并用950℃ 5 min,炉冷获得先共析铁素体组织。试验结果表明,形变诱导铁素体晶粒尺寸≤5μm,平均HV229.55,抗拉强度809 MPa;先共析铁素体晶粒尺寸10~20μm,晶粒不均匀,平均HV210.28,抗拉强度736 MPa。文中分析了形变诱导铁素体和先共析铁素体相变热力学和动力学机制。 相似文献
3.
4.
变形速率对普碳钢中形变诱导铁素体相变的影响 总被引:1,自引:0,他引:1
针对普通碳素钢(Q235类型),研究在Ae3~Ar3温度区间内采用形变诱导铁素体机制获得超细晶铁素体的数量与变形速率的相互关系。实验在Gleeble 1500热模拟实验机上进行。实验方案为:1000℃保温2min,以10℃/s的速度冷却到变形温度[Ae3(840℃)至Ar3(780℃)],变形量为30%~50%,变形后立即水淬。结果表明,在840℃变形时,随着变形速率的增大,形变诱导铁素体量增多;在780℃变形时,随着变形速率的增大,形变诱导铁素体量减少;而在840-780℃之间变形时,变形速率存在最佳值,在该值下诱导生成的铁素体量最大。 相似文献
5.
6.
通过回顾形变奥氏体中铁素体相交近些年来的研究,本文总结了现有的有关奥氏体形变对先共析铁素体形核和长大的影响机制,并加以评述且表明了作者的观点。 相似文献
7.
8.
低碳钢中形变诱导铁素体相变过程中的应力—应变曲线研究 总被引:1,自引:0,他引:1
利用热模拟机Gleeble-3500在温度Ae3~Ar3之间对低碳钢进行了形变诱导铁素体相变的试验研究,发现常见的形变诱导铁素体相变过程中的应力—应变曲线可归纳为三种情况:双峰、单峰以及过渡类型。曲线上所表现出来的峰值是由形变诱导相变在晶界或者晶内发生而导致的软化效应所引起的,是加工硬化和相变软化的平衡点。对应变—时间曲线和应力—时间曲线的分析表明,形变对诱导相变过程中在晶内开始大量发生相变的时刻具有明显的推迟作用,形变诱导相变在形变接近结束之时才开始大量发生,导致大部分的相变过程发生在应变结束之后。研究发现,形变诱导铁素体相变具有亚动态相变的特征,是一个动态形核的亚动态相变过程。 相似文献
9.
10.
11.
12.
Hot deformation processing was designed to study the effects of niobium (Nb) on DIFT. A prestrain of 051 at 880 ℃ for different isothermal time was used for adjusting the deformed austenite constitution and Nb existing state, followed by a secondary heavy deformation at 780 ℃ for inducing the ferrite transformation. The volume fraction and grain size of deformation induced ferrite (DIF) obtained at different isothermal time between double hits were investigated. It was found that Nb dissolved in austenite is adverse to DIFT; however, the precipitation of Nb is beneficial to DIFT. As Nb plays the role in the conventional TMCP, Nb retards the recrystallization of deformed austenite and enhances the deformation stored energy in the multipass deformation, and in result, Nb promotes DIFT. 相似文献
13.
The effects of large strain and strain path reversal on the deformation microstructure evolution in austenite below the recrystallisation temperature were studied by hot torsion using a non-transforming Fe-30wt%Ni model austenitic alloy.Results show that the high angle boundaries (HABs) can be generated by both microstructure mechanism through dislocation accumulation and texture mechanism via subgrain rotation.However,multiple strain path reversals lead to less well-developed HABs in the original grains compared to single reversal deformed to the same amount of total accumulative strain.This effect is attributed to the subgrain rotation mechanism being less effective at small strains.In comparison,the same hot torsion tests were conducted using a microalloyed steel at a temperature between Ae 3 and Ar 3.After single strain path reversal,substantial deformation-induced austenite-to-ferrite phase transformation was observed.Meanwhile,a test with multiple strain path reversals but with the same total strain produces much lower levels of strain-induced ferrite formation.This difference is correlated to the observations made in the Fe-30wt%Ni model alloy.It is believed that the different amount of strain-induced ferrite originated from the different levels of strain-induced HABs within the austenite which act as ferrite nucleation sites. 相似文献
14.
在Gleeble热模拟试验机上,研究含铌微合金钢中铌的析出物在形变诱导相变过程中的作用机理,结果表明:当加热温度为1000℃时,部分铌的碳化物未溶解于奥氏体中,而加热温度为1100℃时,铌的碳化物能够全部溶解到奥氏体中,含铌微合金钢加热温度范围约在1000~1100℃之间。铌的未溶解碳化物和在冷却过程中析出的碳化物都能作为铁素体形核位置,从而促进γ→α相变的发生。 相似文献
15.
16.
通过实验室模拟试验,研究了高氮钒钢的金相组织和形变诱导铁素体体积分数,分析了钒对高氮钒钢变形诱导相变的影响.试验结果表明,钒的加入促进了形变诱导铁素体相变,细化了铁素体晶粒,提高了形变诱导铁素体体积分数. 相似文献