冷却速度对 900 MPa 级冷轧马氏体钢组织性能的影响

以高氢冷却工艺连退生产线为基础,以 900 MPa 级冷轧马氏体超高强钢为研究对象,研究了连续冷却相变区转变规律和连退快速冷却工艺对钢的力学性能和显微组织的影响。结果表明,连续冷却相变区由先共析铁素体转变区、贝氏体转变区和马氏体转变区组成,随着冷却速度的增加,先共析铁素体含量逐渐下降,贝氏体和马氏体含量逐渐上升,当冷却速度大于 40 ℃/s 时,不再有先共析铁素体生成;当冷却速度大于 80 ℃/s 时,则完全进入马氏体转变区。随着连退快冷工艺中冷却速度的增加,钢的屈服强度、抗拉强度和屈强比逐渐增加,断后伸长率逐渐下降。当冷却速度为 50 ℃/s 时,钢的屈服强度、抗拉强度和断后伸长率就已经达到了 900 MPa 级冷轧马氏体超高强钢的力学性能要求。     

Development of TiMicroalloyed 600 MPa Hot Rolled High Strength Steel

 A high strength steel with tensile strength on the order of 710MPa had been development successfully with only addition of titanium alloy element based on a low carbon steel. The results show the hot deformation accelerates ferrite and pearlite transformation and retards bainite transformation under continuous cooling condition. The microstructure of this steel is mainly composed of fine-grained ferrite and carbides distributed along the ferrite grain boundaries. The yield and tensile strengths of steels are about 620～650MPa and 720～740MPa, respectively, and the values of strain hardening exponent (n) and plastic strain ratio (r) are 0.12 and 0.80, respectively, thus providing well-matched strength with toughness. In short, the fine-grained ferrite and TiC nano-precipitates play an effective role in strengthening the steel.     

铬对超高强冷轧双相钢相变和组织性能的影响

实验室成功试制C-Si-Mn-Cr-Nb系和C-Si-Mn-Nb系超高强双相钢,利用热膨胀仪研究了铬对超高强双相钢相变规律的影响,利用光学显微镜、SEM以及拉伸试验对双相钢的微观组织和力学性能进行检测。实验结果表明:铬使实验用钢的CCT曲线整体右移,抑制铁素体和珠光体的生成,对铁素体开始转变温度影响不大,升高铁素体的终止转变温度,降低贝氏体转变温度,提高奥氏体的淬透性,在相同的冷速条件下,铬的加入更容易得到铁素体+马氏体的双相组织;合金元素铬显著改善双相钢的显微组织,细化晶粒,双相钢的屈服强度从510 MPa升高到535 MPa,抗拉强度从1 080 MPa升高到1 145 MPa,抗拉强度的增幅高于屈服强度,在抗拉强度提高的同时,伸长率升高。     

超细晶粒钢及其力学性能特征

探索了在新一代钢中获得超细晶粒的方法。通过低温轧制和应变诱导铁素体相变，可以在碳素结构钢中获得晶粒尺寸小于5μm的超细晶粒，屈服强度大于400MPa。采用应变诱导铁素体相变可以在微合金钢中得到晶粒尺寸为1μm的超细晶粒。低碳微合金钢的屈服强度达到了600MPa，超低碳微合金钢的屈服强度超过了800MPa。采用微合金化和循环热处理可以在合金结构钢中获得2μm的奥氏体晶粒，1500MPa级抗拉强度下改善了耐延迟断裂性能。     

相变时间对CSP热轧TRIP钢组织和性能的影响

利用OM、SEM、XRD、EBSD和室温拉伸试验机等研究了CSP热轧TRIP钢中间缓冷时间及贝氏体等温时间对组织和力学性能的影响。结果表明,随着中间缓冷时间的延长,试验钢中的铁素体和残余奥氏体体积分数增加,贝氏体体积分数减少;抗拉强度基本不变,屈服强度逐渐降低,断后伸长率和强塑积变化不明显。中间缓冷时间为6 s时,可满足CSP产线的要求。对贝氏体相变时间的研究表明,当等温时间为15 min时,试验钢中的残余奥氏体主要分布于铁素体/铁素体界面、铁素体/贝氏体界面以及贝氏体中,体积分数约为7.1%,表现出良好的TRIP效应。其抗拉强度、屈服强度、断后伸长率和强塑积分别达到744.0 MPa、522.5 MPa、29.3%和21.8 GPa·%,力学性能最优。当等温时间延长至50 min时,试验钢中的贝氏体含量增加,残余奥氏体体积分数减少至2.7%,强塑积明显下降。     

快冷条件下钒对中低氮钢晶粒尺寸的影响

通过实验室轧制试验,研究了中低氮含钒钢在轧后快速冷却条件下的铁素体晶粒尺寸和屈服强度的变化规律.结果表明,加入钒能够细化铁素体晶粒,原因是在快速冷却条件下中低氮含钒钢中的钒全部固溶在基体中,固溶的钒降低铁素体的实际相变温度,从而细化了铁素体晶粒.     

CSP流程生产经济型热轧双相钢的工艺与组织性能

 为了在CSP产线上开发新一代经济型热轧双相钢,并确定生产的最佳成分和工艺,介绍了在武钢CSP生产线进行580MPa级热轧双相钢的工业化生产试制情况。分别采用C-Mn-Si系和C-Mn-Si-Cr系钢为原料,通过控制轧制和基于超强冷却设备的控制冷却工艺,成功开发出抗拉强度580MPa级热轧双相钢。通过比较分析2种成分钢的力学性能和微观组织,结果表明：经济型的C-Mn-Si系钢相对于C-Mn-Si-Cr系钢具有屈服强度低、屈强比小、伸长率大的特点,虽然马氏体量相对较少,但具有马氏体呈岛状更加均匀分布在铁素体晶界上等典型双相钢的特征,同时提出了生产过程中控制铁素体析出量和促进马氏体形成的具体措施。     

Mechanical Properties and Retained Austenite Transformation Mechanism of TRIP-Aided Polygonal Ferrite Matrix Seamless Steel Tube

 Through the comparison of microstructure for polygonal ferrite (PF) matrix transformation induced plasticity (TRIP) seamless steel tube at different positions before and after tensile rupture, the transformation behavior of retained austenite (RA) was studied. The results showed that there were no yield points in tensile process and the splendid elongation and tensile strength were contributed by the uniform ferrite/bainite grains and the transformation of RA. The stability of RA was to some extent in inverse proportion with the ability of transformation induced plasticity. The coarse retained austenite located in ferrite and ferrite/bainite laths were all transformed into martensite during the tensile process.     

添加微米级ZrC颗粒的低碳微合金钢强韧性研究

真空条件下,在低碳微合金钢中添加体积分数为1．1％的微米级ZrC陶瓷颗粒,在φ450mm热轧试验机上进行轧制,将ZrC颗粒作为形变核心和奥氏体及形变诱导铁素体的再结晶核心。热轧后晶粒被细化到5．5um,钢板抗拉强度和屈服强度分别达到635MPaN517．5MPa,钢板强韧化的机制是综合引入了形变强化、相变强化、第二相粒子强化及细晶强化的结果。热轧钢板的显微组织为铁素体加少量珠光体,钢中存在大量第二相粒子,并呈弥散分布。     

贝氏体形态对细晶铁素体/贝氏体双相钢室温力学性能的影响

基于过冷奥氏体动态相变的思想,通过两道次压缩变形结合控制冷却的热模拟轧制工艺,获得不同贝氏体含量及形态的细晶铁素体贝氏体双相钢。通过显微组织观察及力学性能测试,考察了第二相贝氏体特征对双相钢室温拉伸变形行为的影响。研究结果表明,形变后快速冷却可获得无碳板条状贝氏体,较慢的冷速或在贝氏体转变区保温处理可获得粒状贝氏体。贝氏体体积分数大于20%左右的细晶铁素体/贝氏体双相钢具有低的屈服强度,高的抗拉强度,高的伸长率,低屈强比以及连续屈服特性。屈服强度既与铁素体晶粒尺寸相关,也与贝氏体形态和数量相关。板条贝氏体引起的屈服强度提高大于粒状贝氏体,粒状贝氏体具有比板条贝氏体更好的塑性。     

中碳钢相变行为对高温力学特性影响的研究

 采用DT1000热膨胀仪和Gleeble1500热模拟试验机,对含钒和不含钒的两种中碳钢的相变行为以及在相变过程中屈服强度和弹性模量的变化规律进行了研究。结果表明：随温度降低及奥氏体向低温相转变百分数的增加,钢的屈服应力急剧提高。含钒钢因相变开始温度低,其屈服应力快速增加的温度较低。弹性模量在相变时产生剧烈变化,并在铁素体＋珠光体转变过程中出现波峰和波谷。     

Ti微合金化高强度热轧带钢组织性能及强化机理

The continuous cooling transformation behavior, the effect of coiling temperature on microstructure and mechanical properties, and strengthening mechanisms of Ti microalloyed high strength hot strip steel were systematically investigated by thermal simulation testing machine, laboratory rolling mill, SEM and HR-TEM. The dynamic CCT curve was established. The results show that the austenite to ferrite and pearlite transformation takes place when the cooling rate is less than 1??/s. The austenite to bainite transformation accompanied with austenite to ferrite and pearlite transformation takes place when the cooling rate is in the range of 5 ??/s to 10 ??/s. The bainitic transformation temperature is about 600??. The amount of granular bainite decreases, while the amount of lath bainite increases with the increase of cooling rate in the range of 20??/s to 50??/s. Furthermore, the study on the effect of coiling temperature on the microstructure and mechanical properties of experimental steel has shown that the strength and plasticity of tested steel are improved with decreasing the coiling temperature. When the coiling temperature is 550?棬the experimental steel possesses optimal mechanical properties owing to the grain refinement and precipitation of nano-scale TiC particles. And the tensile strength, yield strength and elongation of tested steel were 742MPa, 683MPa and 22??5%, respectively.     

Nb对C-Si-Mn-Cr双相钢相变规律、组织和性能的影响

  根据C Si Mn Cr和C Si Mn Cr Nb实验钢的相变规律,在实验室进行了控轧控冷实验研究,分析了微合金元素Nb对高强度热轧双相钢相变规律、组织和性能的影响。实验结果表明,Nb可显著推迟铁素体和珠光体转变,并显著降低铁素体开始转变温度,但对铁素体终止转变温度和贝氏体转变温度区间基本没有影响。经Nb微合金化后,实验钢的屈服强度和抗拉强度增幅均在100 MPa以上,屈服强度的增幅高于抗拉强度,且在强度大幅度升高的同时,伸长率下降并不明显,表明Nb的细晶强化作用对提高中温卷取热轧双相钢强度级别的效果明显。     

铌钒微合金中碳钢的微观组织与强度的关系

介绍了工业试制铌钒微合金中碳钢的微观组织与强度的关系。在Ｇｌａｄｍａｎ中碳钢方程和实验结果的基础上，提出了屈服强度和抗拉强度的新方程。该方程与钢的成分、晶粒尺寸、铁素体体积百分数、珠光体片间距和析出物颗粒有关，理论计算的屈服强度和抗拉强度值与实验结果吻合。该方程不仅适合微合金中碳钢的铁素体和珠光体组织，而且也适合高碳微合金钢的珠光体组织和低碳微合金钢的铁素体组织。     

硼和钛对低碳铝镇静钢组织和性能的影响

 研究了低碳铝镇静钢08Al中单独添加硼、钛和同时添加硼、钛对其组织和力学性能的影响,结果显示,在相同控轧控冷工艺条件下,单独添加微量硼对盘条的屈服强度和抗拉强度影响不大,单独添加质量分数0.057%的钛可使盘条屈服强度和抗拉强度升高约20 MPa,同时添加质量分数为0.004 8%的硼和质量分数为0.07%的钛可使盘条屈服强度和抗拉强度显著提高,试验中,屈服强度由260升高到316 MPa,提高了56 MPa,抗拉强度由363升高到463 MPa,提高了100 MPa。同时添加硼和钛使强度提高的原因主要是由于获得了具有高位错密度的不规则的准多边形铁素体,同时细片层珠光体相变强化对该钢强度的升高也有一定贡献。     

钛微合金化热轧双相钢的工艺研究

通过模拟实验研究了钛微合金化热轧双相钢的连续冷却转变曲线及终轧温度对组织的影响规律,获得了可行的工艺窗口,并进行了验证性热轧实验.在冷却速率小于5℃·s-1及温度在625~725℃时,实验钢可以形成先共析铁素体.随着终轧温度升高,组织中铁素体及马氏体含量先升高后降低,但幅度不大.同时,当终轧温度较高时,铁素体显微硬度增加,析出强化作用增加.当终轧温度及缓冷温度分别为840℃及700℃时,获得了抗拉强度为672 MPa及屈强比为0.61的性能良好的热轧双相钢.经计算,铁素体组织中析出强化量为78.5 MPa.      

屈服强度700MPa级冷成形用热轧带钢的开发

 采用SiMnTiNb低C钢成分、运用TMCP技术在1450mm热连轧生产线上成功开发了一种屈服强度700MPa级热轧超高强冷成形用钢。测定了开发钢的连续冷却相变（CCT）曲线,研究了其析出强化规律,测试了带钢的力学性能和冷弯性能,研究了其焊接性能。结果表明,其组织为4~5μm细晶粒铁素体+贝氏体+少量马氏体,铁素体晶粒中含Nb-Ti沉淀相。超高强度的获得归功于细晶强化+相变强化+析出强化。所开发的热带钢冷弯成形性和焊接性能良好。     

VN合金化对20MnSiV钢筋钢组织的影响

对比研究了VN合金化和Fe-V合金化的20MnSiV钢筋钢的显微组织和钒析出物。结果表明：用VN合金化的20MnSiV钢筋钢的铁素体量较多,珠光体量较少;钒析出物的量明显较多。顶计用vN合金生产的20MnSiV钢筋钢将具有较高的屈服强度和较低的冲击转变温度。     

Effects of Prior Cold Rolling and Post Temper Rolling on the Properties of Continuously Annealed Low Carbon Dual Phase Steel

The effects of two processing variables, prior cold reduction and temper rolling, on the mechanical properties of a continuously annealed 0.05 pct C low alloy dual phase steel were studied. It was found that cold rolling affected the strength of the dual phase steel through its influence on the recrystallized ferrite grain size. The correlation between yield strength and mean free path in ferrite was shown to follow a Hall-Petch type relationship. Similarly, temper rolling also had a pronounced effect on the yield strength of the steel. The effect was strongly dependent upon the previous overaging treatment; the lower the overaging temperature, the stronger the effect. Basically, the effect of temper rolling on dual phase steel was not much different from that on mild steel and HSLA in terms of the change in yield strength and yield point elongation. Another interesting observation was the influence of quenching rate on the strength of the dual phase steel. A slower quenching rate in the heavier gauge dual phase steel caused pearlite rims to form around martensite colonies and thus decreased the strength of the steel.     

临界退火中锰钢的组织性能和变形行为

 为了研究临界退火中锰钢的微观组织演变规律以及组织对力学性能和变形行为的影响,对冷轧中锰钢(0.1C-7Mn-0.35Si)在570～650 ℃范围内进行了临界退火处理。研究结果表明,随着退火温度升高,双相“奥氏体+铁素体”组织逐步趋于等轴化且晶粒有粗化的趋势,并且在650 ℃时出现了马氏体组织;试验钢的抗拉强度随温度升高而增加,而伸长率和屈服强度均呈下降趋势,局部不均匀变形带随着退火温度升高逐步弱化,在620和650 ℃时完全消失;在相对较高的退火温度下,粗化的等轴奥氏体晶粒中形变诱导马氏体相变的增强和大尺寸的铁素体晶粒中动态回复的减弱,以及更高温度时马氏体的引入等,均改善了屈服阶段的加工硬化能力,从而有效减弱或抑制吕德斯带的扩展。