共查询到18条相似文献,搜索用时 187 毫秒
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结合膨胀法和金相-硬度法,利用Gleeble-1500D热模拟机测定了42CrMoA钢的临界点Ac1、Ac3和Ms点,测定了该钢在不同冷却速度下连续冷却时的膨胀曲线,相转变点;分析了连续冷却过程中过冷奥氏体转变过程及转变产物的组织形貌;测定了不同冷却速度下相转变后的硬度,获得了该钢过冷奥氏体连续冷却相转变曲线.结果表明,当冷却速度小于0.1℃/s时,转变产物为铁素体和珠光体组织;当冷却速度0.2~0.6℃/s时转变产物是铁素体、珠光体、贝氏体的混合组织;当冷却速度为0.7~17℃/s时,转变产物是贝氏体和马氏体的混合组织;当冷却速度大于20℃/s时,转变产物为完全马氏体,此次实验并没有获得完全贝氏体. 相似文献
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采用膨胀法并结合金相-硬度法,在Gleeble-1500D热模拟机上测定了Cr4钢的临界转变点Ac1,Ac3以及M3点;测定了不同冷却速度下连续冷却时的膨胀曲线,得到了该材料的连续冷却转变曲线(CCT曲线);结合金相组织观察方法,研究了连续冷却过程中奥氏体转变过程及转变产物的组织形貌;测定了不同冷却速度下相转变后的硬度值.结果表明,随着冷却速度的增加,材料的硬度也越来越大.为大型支承辊热加工工艺过程微观组织模拟提供了重要的基础参数,同时也为大型支承辊的锻造及热加工工艺路线的制定提供了理论依据. 相似文献
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刘乐乐马艳霞梁晨苑伟 《锻压装备与制造技术》2018,(6):126-129
采用膨胀法并结合金相-显微硬度法,在Gleeble-3500热模拟试验机上测定了弹簧钢50CrVA的相变临界点Ac1、Ac3、Ar1、Ar3;测定了该钢在不同冷却速度时的膨胀曲线,绘制了该钢的连续转变曲线(CCT曲线)。结果表明,随着冷却速度的增加,其显微硬度增加;当冷却速度小于5℃/s时,转变产物为多边形铁素体、珠光体和少量贝氏体的混合组织,当冷却速度在5~10℃/s之间时,转变产物为铁素体、珠光体和少量贝氏体;当冷却速度大于10℃/s,得到马氏体组织。 相似文献
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利用膨胀法结合金相-硬度法,在膨胀仪上测定了07MnNiMoDR钢的临界点Ac1和Ac3;测定了该钢在不同冷却速度下连续冷却时的膨胀曲线,获得了连续冷却转变曲线(CCT曲线);研究了冷却速度对该钢组织及硬度的影响。结果表明,当冷却速度为0.5℃/s时,转变产物为铁素体和珠光体,当冷却速度为1~5℃/s时转变产物是铁素体、珠光体和贝氏体,当冷却速度为10~80℃/s时转变产物为贝氏体,当冷却速度大于150℃/s时,转变产物为马氏体。该钢种CCT曲线的测定可为生产实践和新工艺的制定提供一定的参考依据。 相似文献
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采用膨胀法和金相-硬度法,在热模拟机Gleeble-1500D上测定了42CrMoA钢的临界点Ac1、Ac3、Ms,及其变形后在不同冷却速度下连续冷却时的膨胀曲线和相转变点;测定了转变产物的维氏硬度,并对其组织形貌进行分析,从而获得了该钢过冷奥氏体连续冷却动态相转变曲线(动态CCT曲线).结果表明,当冷速不超过0.1℃/s,组织为F+P;当冷速为0.2~0.5℃/s时,组织为F+P+B;当冷速为0.6~0.7℃/s时,组织为F+P+B+M;当冷速为1~15℃/s时,组织为B+M;当冷却速度大于20℃/s时,转变产物为完全马氏体. 相似文献
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H08Mn2E钢的等温转变曲线和连续冷却转变曲线 总被引:2,自引:0,他引:2
采用Gleeble-1500热力模拟机测定了H08Mn2E钢的临界温度Ac1、Ac3以及Ms点。通过测定不同温度下等温转变和不同冷却速度下连续冷却转变的膨胀曲线,结合金相组织观察和硬度测定,获得了该钢的等温转变曲线和连续冷却转变曲线,研究了其等温转变和连续冷却转变产物的组织形态,为该钢的工艺制订提代了理论依据。 相似文献
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To study the effects of the deformation degree and cooling rate on the microstructure and phase transformation temperature for the B1500 HS steel, the samples were heated at 900 °C for 5 min, compressed by 10, 20, 30 and 40% at the strain rate of 0.1 s~(-1), and then cooled down at the rates of 50, 40, 25, 20 and 15 °C/s by the thermo-mechanical simulator,respectively. The start and finish temperatures of the phase transformation were determined by the tangent method, and the volume fraction of the phase transformation was ascertained by the level principle according to the dilatometric curves.The volume fraction of the retained austenite was determined by X-ray diffraction. The results show that the volume fraction of the bainite rises with an increase in the deformation degree as the cooling rate is lower than the critical rate. At the same cooling rate, the phase transformation temperature rises with an increase in the deformation degree, and the sizes of both the martensite and bainite phases reduce due to the austenite grain refinement induced by the deformation. The volume fraction of the retained austenite reduces as the deformation degree increases. The critical cooling rate of the undeformed samples is approximately 25 °C/s and the critical cooling rate rises as the deformation degree increases. 相似文献
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The increasing evolution of dilatometric techniques now allows for the identification of structural transformations with very
low signal. The use of dilatometric techniques coupled with more common techniques, such as metallographic, hardness testing,
and x-ray diffraction allows to plot a new CCT diagram for AISI M4 high-speed tool steel. This diagram is useful for a better
selection of alternate solutions, hardening, and tempering heat treatments. More accurate determination of the various fields
of transformation of austenite during its cooling was made. The precipitation of carbides highlighted at high temperature
is at the origin of the martrensitic transformation into two stages (splitting phenomena). For slow cooling rates, it was
possible to highlight the ferritic, pearlitic, and bainitic transformation. 相似文献
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