Effects of Hydrogen on Behaviour of Low Cycle Fatigue of 2.25Cr-1Mo Steel

The effects of hydrogen atoms on behaviour of low cycle fatigue of 2.25Cr-1Mo steel have been investigated in present work. The results indicate that the cyclic softening rate and low cycle fatigue life are respectively increased and reduced remarkably by hydrogen atoms. In addition, hydrogen atoms make the original stress amplitude of low cycle fatigue increase, which is because of the drag effect of hydrogen atoms on the moving dislocations. Analyses using electron microscopy show that hydrogen atoms accelerate crack initiation of low cycle fatigue from inclusion and transfer the source of low cycle fatigue crack from the surface of specimen to the inclusion, which results in the marked decrease of low cycle fatigue life. The increase of cyclic softening rate for hydrogen charged specimen is due to hydrogen atoms accelerating the initiating and growing of microvoids from the secondary phase particles in the steel. The reducing of the drag effect of hydrogen atoms on moving dislocations is also helpful to the increase of the cyclic softening rate.

Cyclic oxidation behavior of Fe-9Cr-1Mo steel in water vapor atmosphere

The cyclic oxidation behavior of Fe-9Cr-1Mo steel (9Cr-1Mo) in 10%H2O+90%Ar (volume fraction) atmosphere at 600, 650 and 700 ℃ for various time was studied. The oxidation mechanism of 9Cr-1Mo steel in 10%H2O+90%Ar atmosphere was discussed. The thermal stress was evaluated in two oxide layers to illustrate the spallation of the oxide layer. The experimental results indicate that there exists a duplex oxide scale with an outer layer of Fe2O3 and an inner layer of mixed (Fe, Cr)3O4 formed on 9Cr-1Mo steel during cyclic oxidation. Some cracks generated in both inner and outer oxide layers. Parts of oxide scales spalled from substrate during the cyclic oxidation. A higher tensile stress in the oxide layer is formed at the early oxidation stage than at the later oxidation stage during heating. This tensile stress results in the formation of cracks in the oxide layer.

KINETICS OF TEMPER EMBRITTLEMENT IN 2.25Cr-1Mo STEEL USED FOR HOT-WALL HYDROFINING REACTORS

Based on the theory of grain boundary segregation, a kinetics model of temper em-brittlement caused by long-term service for hot-wall hydrofining reactors was studied.The kinetics model was applied to phosphorus (P) segregation in 2.25Cr-1Mo steelused for a hot-wall hydrofining reactor, and the kinetics of grain boundary segrea-tion of impurity P in the steel exposed to the process environment of the hydrofiningreactor was calculated on the basis of the model. The Auger electron spectroscopytest was performed in order to determine the grain boundary concentration of P. Theexperimental result is agreement with the theoretical calculated data. The results showthat the kinetics equation is reasonable for predicting the levels of grain boundarysegregation of impurity P in 2.25Cr-1Mo steel used for hot-wall hydrofining reactors.

The Ductile to Brittle Transition Behavior of the Modified 9Cr-1Mo Steel and Its Laser Welds

The ductile to brittle transition temperature (DBTT) of the modified 9Cr-1Mo steel and its laser welds was studied. The increase in grain size of the weld structure ascended the DBTT of the steel significantly. The transformation of retained austenite at martensite interlath boundaries into untempered and/or twinned martensite could also contribute to increased DBTTs of the steel and its welds tempered at 540℃.

钠冷快堆蒸汽发生器用2.25Cr-1Mo钢热老化行为研究进展

中国实验快堆蒸汽发生器主要使用核级2.25Cr-1Mo钢制造。由于钠冷快堆中严苛的工作环境,蒸汽发生器传热管需要同时面对高温、高压差以及钠和水腐蚀等问题,其中部分问题引起蒸汽发生器的热老化行为,从而影响其寿命。本文调研了钠冷快堆蒸汽发生器用2.25Cr-1Mo钢热老化行为的主要影响因素,总结了开展2.25Cr-1Mo钢热老化行为研究的多种方法,提出了解决2.25Cr-1Mo钢热老化问题的措施,并对未来发展方向进行展望,以期为我国钠冷快堆蒸汽发生器部件的寿命评估和安全运行提供参考。

2.25Cr-1Mo钢焊缝裂纹现场返修工艺

加氢反应器是石油化工行业的核心设备,某石化装置2.25Cr-1Mo耐热钢制加氢反应器使用多年停车检修时,发现加氢反应器封头与筒体连接的环缝处有一横向裂纹。本文以该裂纹的现场修复为例,对2.25Cr-1Mo耐热钢的焊接性及裂纹产生原因进行了分析,通过对2.25Cr-1Mo耐热现场修复流程的制定与实施,总结了高效修复2.25Cr-1Mo耐热钢焊缝裂纹的工艺方法,为现场修复类似缺陷的加氢反应器提供了参考。

核用2.25Cr-1Mo钢在不同环境下的微动磨损性能

目的研究核用2.25Cr-1Mo钢在不同环境下的微动磨损性能。方法采用自制的切向微动磨损试验设备,在4种环境(温室RT/大气、RT/水、450℃/大气和450℃/液态钠)下对2.25Cr-1Mo钢进行了切向微动磨损试验。试验参数为:法向载荷20 N,运动频率5 Hz,位移幅值50μm,循环次数10^(5)和2×10^(5)。试验前,采用维氏硬度仪测量了2.25Cr-1Mo钢在室温和450℃高温下的硬度。试验后,采用Bruker白光干涉显微镜测量了磨痕的三维形貌并获得了截面轮廓和磨损量。采用扫描电子显微镜(SEM)、能谱仪(EDS)分析磨痕表面和横截面的微观形貌以及摩擦化学反应。结果2.25Cr-1Mo钢在不同环境下表现出不同的磨损性能。450℃液态钠环境下的磨损量最大,大于450℃和室温大气环境下的磨损量;室温水环境下的磨损最小。经过10^(5)微动循环后,2.25Cr-1Mo钢在450℃液态钠和室温水环境下表现出最大和最小的磨损率,分别为4.17×10^(-6)mm^(3)/(N·m)和0.32×10^(-6)mm^(3)/(N·m)。结论2.25Cr-1Mo钢在室温大气环境下的磨损机制为分层、剥落和氧化磨损;随着温度升高到450℃,大气环境下的氧化磨损加剧,伴随着剥层和“锻造流线”;室温水环境下的磨损机制为磨粒磨损和氧化磨损;450℃液态钠环境下的磨损机制为磨粒磨损、黏着磨损和“锻造流线”,同时钠的腐蚀协同作用也加速了材料的失效。

基于声发射统计信息的2.25Cr-1Mo钢早期损伤判别方法

裂纹开裂是金属材料常见的损伤失效形式之一。而材料失效会经历从早期微小损伤到宏观变形的微观组织动态演化过程,如何在材料发生宏观变形之前,能够及早地发现损伤至关重要。该文基于对材料损伤失效过程不同声源的机理分析,提出了以不同声源信号数的统计占比值κ这一变量来判定表征材料早期损伤阶段的判别指标,制备6个含不同缺陷的不带堆焊层和带堆焊层的2.25Cr-1Mo钢试件,采用声发射技术对试件的弯曲损伤全过程进行在线测试,获得了6个试件早期损伤阶段的声学数据,通过对比分析以幅值和能量为主的单一参量以及基于支持向量机的多元参量κ值的统计结果,证明了利用κ值可以有效地对不带堆焊层和带堆焊层的2.25Cr-1Mo钢试件的早期损伤阶段进行判别,其中不带堆焊层试件的κ值范围为1:3.1~1:3.6之间,带堆焊层试件的κ值范围为1:2.2~1:2.6之间,具有明显的区分度。

Rietveld Quantitative Analysis of Carbides Precipitation in Normalized-tempered 2.25Cr-1Mo-0.25V Steel

The quantitative determination of the mass fractions of precipitates in steels is very difficult using traditional materials characterization techniques. The Rietveld full-pattern fitting algorithm was introduced to solve this problem. The precipitated multicomponents’ mass fraction of M3C, MC, M7C3 and M23C6 were evaluated precisely and relatively quickly. It is found evolution of carbides apparently occurs during tempering at high temperatures, and a two-step transformation mechanism is proposed for M7C3 during early tempering treatment. The method is an effective way on the investigation of precipitation kinetics, which may play a promising role in propertities’ enhancement and design of the heat-resistant steels.

Interaction of Mechanical and Electrochemical Factors duringCorrosion Fatigue of Fe-26Cr-1Mo Stainless Steel in 1M H_2SO_4 Solution

The cyclic plastic straining electrode technique has been used to investigate the transient electrochemical behaviour of Fe-26Cr1Mo stainless steel in 1M H2SO4 solution at a passive potential.The influence of plastic strain amplitude and plastic strain rate on the dissolution current response was analysed. The experimental results showed that the transient current was dependent on the competitive process of the surface film rupture and repassivation of the new surface. The high plastic strain amplitude and the high plastic strain rate caused a change of electrochemical activity of specimen surface. In the condition of low strain amplitude and strain rate, the characteristics of current response was mainly relative tp the process of new surface repassivation.The competition kinetics has been analysed through the comparison of plastic strain rate and repassivating rate

Characterization and Modelling of High Temperature Flow Behaviour of V Modified 2.25Cr-1Mo Heat Resistant Steel Plate

In order to study the high temperature flow behaviour of the V modified 2.25Cr-1Mo steel plate to guide the industrial rolling practice, the hot compression tests were carried out at the temperatures from 900 ℃ to 1150 ℃ and the strain rates from 0.01s^-1 to 1 s^-1 on Thermecmastor-Z equipment. Based on the experimental data of the hot compression tests, a kind of Arrhenius-type constitutive equation was developed.The equation can accurately show the relationship between the flow stress and the deformation temperature, the strain and the strain rate. The measured true stress-true strain curves exhibit two kinds of flow stress curves. Moreover, the forming mechanisms of these two types curves were explained by softening, wok hardening theory as well as metallographic and hardness experimental results. The accuracy of the developed Arrheniustype constitutive equation was identified by three kinds of statistic parameters and also by comparison of the measured and predicted data. The reasonable value of the three types of statistic parameters and the good agreement between the experimental and predicted data can confirm the validity of the developed Arrheniustype constitutive equation for V modified 2.25 Cr-1 Mo heat resistant steel plate.

Formation of FeMo_2B_2 phase in boron containing 9Cr-1.5Mo ferritic steels

The segregation and diffusion of boron during heat treatments were studied. The influence of boron contents, aging time and applied stress on FeMo2B2 formation was also studied. Finally, the effects of boron contents and FeMo2B2 formation on the high temperature strength were studied. Boron atoms were segregated to prior austenite grain boundary during normalizing treatment. And these boron atoms were slowly diffused into the grain interior during tempering and aging at 700 ℃. The FeMo2B2 phase was only formed after 1,000 h aging at 700 ℃ in alloy containing 196 ppm boron. The formation of FeMo2B2 phase is accelerated by the applied stress. It was expected that the formation of FeMo2B2 is closely related to the redistribution of boron atoms. The tensile strengths at 700 ℃ are increased with the increase of boron contents. However, the formation of FeMo2B2 phase results in lower tensile strength.

Effect of Metallurgical Behaviour at the Interface between Ceramic and Interlayer on the Si_3N_4/1.25Cr-0.5Mo Steel Joint Strength

By using newly developed CuNi5~25Ti16~28 B rapldly solidifled brazing filler the joining of Si3 N4/1.25Cr-0.5Mo steel has been carried out with interlayer method. If employing the interlayer structure of steel (0.2 mm)/W (2.0 mm)/Ni(0.2 mm), the joint strength can be increased greatly compared with employing that of Ni/W/Ni, and the three point bend strength of the Joint shows the value of 261 MPa. The metallurgical behaviour at the interface between Si3N4 and the interlayer has been studied. It is found that Fe participated in the interfacial reactions between Si3N4 and the brazing filler at the Si3N4/steel (0.2 mm) interface and the compound Fe5Si3 was produced. However, since the reactions of Fe with the active Ti are weaker than those of Ni with Ti, the normal inter facial reactions were still assured at the interface of Si3N4/steel (0.2 mm) instead of Si3N4/Ni (0.2 mm), resulting in the improvement of the joint strength. The mechanism of the formation of Fe5Si3 is also discussed. Finally, some ideas to further ameliorate and simplify the interlayer structure are put forward.

2.25Cr-1Mo钢回火过程中碳化物析出顺序的研究

采用化学相分析的方法研究了2.25Cr-1Mo钢粒状贝氏体组织在回火过程中碳化物的变化和析出顺序.结果表明,当回火参数为18140～22000时,试验钢中析出合金碳化物的类型为M2(CN),M6C,M4C3,Cr9C3以及M23C6;合金碳化物的析出顺序为M2(CN)→M6C→M7C3,Cr7C3→M23C6,而且这些合金碳化物的变化过程是一系列重迭的阶段.

铬、铌和钒对9Cr-1Mo钢焊缝回火组织性能的影响

对于 9Cr- 1Mo耐热钢 ,碳化物的类型和分布是维持材料高温力学性能的关键。对于瑞典ESAB公司的三类 9Cr- 1Mo焊条制成的焊缝金属 ,通过研究发现 ,经过 710℃或 74 0℃× 5h的高温回火处理以后 ,三类材料的力学性能变化发生了较大的差异 ,为此用电子显微镜和光学显微镜对材料的微观组织进行了观察。根据微观观察和成分分析的结果发现 ,高温回火热处理后 ,Cr2 3C6 和Cr7C3型碳化物沿晶界和马氏体板条界面以链状或粒状析出长大 ,材料的力学性能因此发生变化 ,同时还发现 ,铌和钒所产生的耐高温碳化物对保持焊缝组织的高温稳定性有重要影响 。

9Cr-1Mo钢在含水蒸汽气氛中的氧化行为

研究了9Cr-1Mo(ASME T91)钢在(Ar+10%H_2O)气氛中600℃、650℃和700℃下的高温氧化行为.在恒温氧化10 h过程中,在600℃氧化遵从抛物线规律;而在650℃和700℃氧化则遵从分阶段抛物线规律,且后一阶段的速度常数高于前一阶段的;随着温度的升高,氧化速度明显增大;氧化激活能为157.2 kJ/mol.T91钢氧化时表面形成了多层结构的氧化膜,从外到内依次为Fe_2O_3、Fe_3O_4和(Fe,Cr)_3O_4;钢基体也发生了内氧化,内氧化物为FeO和Cr_2O_3.只有在700℃氧化时没有外层Fe_2O_3形成和内氧化发生.9Cr-1Mo钢氧化后冷却至室温后,氧化膜发生开裂或局部剥落.最外层Fe_2O_3与次外层Fe_3O_4间出现很大的裂隙,Fe_2O_3层容易剥落.同时探讨了9Cr-1Mo钢在含水蒸汽气氛中的氧化机制.

3Cr-1Mo-1/4V钢的组织与性能

采用金相、TEM、XRD等方法研究了 3Cr- 1Mo- 1/ 4V钢组织与性能 ,结果表明 :3Cr- 1Mo- 1/ 4V钢在5 5 0℃回火时出现二次硬化现象 ,其强度、硬度达到极大值 ,随回火温度的升高和回火时间的延长 ,强度、硬度下降 ,而塑性增加。经模拟最大焊后热处理 (Max.PWHT)后的拉伸性能和模拟最小焊后热处理(Min.PWHT)后的 - 18℃夏比 (V型 )冲击韧性均满足加氢反应器的设计要求。筒体锻件性能分析表明 :力学性能均匀 ,达到了加氢反应器的技术要求 ,良好的成分均匀性。

合金碳化物与2(1/4)Cr-1Mo钢的韧化机制

用相分析手段研究了２１４Ｃｒ－１Ｍｏ钢回火过程中合金碳化物类型、含量、分布等与韧性的关系，并对其韧化机制进行了探讨。

残余奥氏体对2.25Cr-1Mo钢焊缝冲击性能的影响

比较2.25Cr-1Mo钢埋弧焊焊缝经过720℃保温2 h(工艺1)以及680℃保温12 h(工艺2)的冲击性能,结果表明热处理工艺1具有更好的冲击韧度;进一步测试工艺1接头液氮处理后的冲击性能,发现冲击韧度降低,推测残余奥氏体质量分数是造成这不同热处理工艺冲击性能差异的因素。采用振动样品磁强计和电子背散射衍射技术分别研究两种热处理试样的磁极化强度和相分布,获得了两种热处理工艺处理后焊缝金属的残余奥氏体质量分数,磁法测量表明焊后经工艺1处理后存在约3%左右的残余奥氏体,而经工艺2处理后残余奥氏体为0.2%;EBSD分析结果:工艺1的残余奥氏体质量分数为3.49%,工艺2的质量分数为0.18%,证实了焊缝中残余奥氏体质量分数的变化对冲击性能具有一定的影响。

9Cr-1 Mo-V-Nb-N钢管的热处理工艺的优化

采用单因素比较试验法和正交试验法对 9Cr 1Mo V Nb N钢厚壁无缝钢管热处理工艺参数进行了优化研究 ,通过 16个力学性能指标的多指标综合量化评估法得到了优化的热处理工艺参数。结果表明 ,优化工艺的正火温度为 10 5 5℃± 15℃ ,回火温度 76 5℃± 15℃。