共查询到20条相似文献,搜索用时 93 毫秒
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主要研究了晶粒尺寸对Fe- 17Mn- 1Al- 0.6C TWIP钢的氢脆行为的影响。原始材料经过不同的热处理制度,得到晶粒尺寸为17和45μm的材料。通过慢拉伸试验研究氢质量分数在0~0.001%材料的氢脆敏感性。试验结果表明,充氢后的试验材料比未充氢试验材料易发生氢脆,充氢后的试验材料断裂强度和断裂应变均降低。随着晶粒尺寸的增大,试验材料的氢脆敏感性增强。在氢质量分数为0.001%,晶粒尺寸增加到45μm时,应变损失率为17%,随着晶粒尺寸的增大,氢脆敏感性增加的原因是晶粒尺寸较大的材料孪晶较早出现,孪晶密度较大,同时单位晶界氢质量分数增加。 相似文献
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摘要:为研究溶解氧质量浓度对10Ni5CrMo钢在阴极极化条件下氢脆敏感性影响规律,对10Ni5CrMo钢进行了阴极极化下的电化学交流阻抗谱测试﹑并采用慢应变速率拉伸实验和断口分析方法研究了海水中溶解氧质量浓度变化和不同阴极极化下10Ni5CrMo钢的氢脆敏感性。结果表明:溶解氧质量浓度变化对10Ni5CrMo钢强度几乎没有影响;同一溶解氧质量浓度下,随极化电位负移,断裂时间、伸长率、断面收缩率明显降低,氢脆系数增加,氢脆敏感性显著提高,极化电位达到-1000mV时,氢脆系数已超过安全区允许的最高值25%,进入危险区;同一极化电位下,随着海水中溶解氧质量浓度减少,材料塑性变差,断裂时间、伸长率和断面收缩率不断降低,氢脆系数增加,氢脆敏感性提高。 相似文献
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Hydrogen embrittlement has been observed since high‐strength steels have been produced in the nineteen thirties 1 . Several different analytical methods have been developed to quantify the total and diffusible hydrogen in steel, but many aspects of hydrogen determination are still to be explored. Purely quantitative determination of hydrogen is not sufficient to fully characterize the steel regarding its resistance against embrittlement. Thermal Desorption Mass Spectrometry (TDMS) allows the investigation of hydrogen absorption and desorption mechanisms to characterize hydrogen traps in different kinds of steel microstructures. This provides valuable information for the development of new materials with a higher resistance against hydrogen embrittlement. Additionally, TDMS allows the quantitative determination of very small concentrations of hydrogen (<0.1 µg/g). Such low detection limits cannot be reached with other methods. Due to time‐consuming analysis and a rather complex construction, TDMS is usually not applied for hydrogen determination in German steel mills. The present work describes the development of a thermal desorption spectrometer at ThyssenKrupp Steel Europe AG by adapting a compact quadrupole mass spectrometer to a commercially available hot solid extraction analyzer, which has proven to be a simple and efficient solution for the determination of diffusible hydrogen in steel. 相似文献
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Effect of Morphology for Novel Bainite/Martensite Dual-Phase High Strength Steel on Its Hydrogen Embrittlement Susceptibility 总被引:2,自引:0,他引:2
CHANG Kai di GU Jia lin FANG Hong sheng BAI Bing zhe ZHANG Wen zheng YANG Zhi gang LIU Dong yu ZHANG Chi 《钢铁研究学报(英文版)》2001,8(1):37-40
It is very imperative to study the novel highstrength materials with high purity,high uniformityand refined grain,for improving the utilization rateand quality of materials.However,improving thestrength will reduce the resistance of materials tohydrogen embrittlement. For example,in lastcentury,some hydrogen embrittlements in thelanding gear of plane were reported[1] . When yieldstrength exceeds 1380 MPa,high strength steelsbeing used now exhibit strong susceptibility tohydrogen embrittlement… 相似文献
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通过SEM、TEM、XRD、化学相分析等方法对比研究新型扭杆弹簧用40Si2Ni2CrMoV钢(代号N1)和现有45CrNiMoVA钢微观组织及其对力学性能的影响,并利用慢应变速率拉伸方法对比研究两种不同扭杆弹簧用钢的氢脆敏感性。结果发现,N1钢由于添加硅、钼等抗回火软化元素,使得N1钢在较高的300 ℃温度回火时还能保持一定的抗拉强度,N1钢有大量细小的ε-碳化物析出,使得屈服强度增加,屈强比在0.80以上,45CrNiMoVA钢经180 ℃低温回火后屈服强度在1 550 MPa左右,屈强比只有0.72;经相同条件充氢后,N1钢的慢拉伸强度下降幅度较小,其试样断口中也没有观察到沿晶断裂特征,N1钢的氢脆敏感性明显低于45CrNiMoVA钢。 相似文献
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LI Hui-lu GAO Ke-wei QIAO Li-jie WANG Yan-bing CHU Wu-yang HUI Wei-jun DONG Han WENG Yu-qing 《钢铁研究学报(英文版)》2001,8(2):42-46
Stress corrosion cracking (SCC) of highstrength steels in an aqueous solution has been wide-ly investigated[1— 8] .It has long been accepted thatSCC of high strength steel in water is one kind ofhydrogen- induced cracking (HIC) [1— 5] .Because ofhydrolysis of the metal ions,the value p H of the lo-cal environment within a pit,crevice or crack on asteel surface can be decreased to about 3.5 [1] .Be-cause of crack- tip acidification,local conditions arealways favorable for release of hydro… 相似文献
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Christian Hempel Marcel Mandel Caroline Quitzke Markus Radajewski Christina Schröder Marco Wendler Olena Volkova Lutz Krüger 《国际钢铁研究》2023,94(7):2200870
The study evaluates the effect of electrochemical hydrogen charging on the tensile properties and fracture behavior of the plasma tungsten inert gas weld of the high-alloy austenitic steel X3CrMnNiMoN17-8-4 in comparison to the pure base metal (BM). The weld metal exhibits a higher susceptibility to hydrogen embrittlement than the BM, which is mainly expressed by a loss in ductility. Based on the performed electron backscatter diffraction and X-ray diffraction examinations, this is attributed to the higher amount of δ-ferrite and the higher dislocation density in the weld zone. Furthermore, fractographic analyses reveal a change in the manner of fracture mode from ductile to brittle fracture starting from the edge in the hydrogen charged samples. The wider area of brittle fracture in the weld seam in relation to the BM indicates that hydrogen penetrates deeper into the material. Consequently, the diffusivity of hydrogen in the weld seam is determined to be significantly higher than in the BM. 相似文献
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The constant embrittlement curve for constant segregation concentration on grain boundary of impurity element P and relationship between equilibrium grain boundary segregation concentration and operation time for 225Cr-1Mo steel were derived based on the theory of equilibrium grain boundary segregation. The mechanism of step-cooling test and mechanism of de-embrittlement for 225Cr-1Mo steel were explained. The segregation rate will increase but equilibrium grain boundary segregation concentration of impurity element P will decrease as temperature increases in the range of temper embrittlement temperature. There is one critical temperature of embrittlement corresponding to each embrittlement degree. When the further heat treating temperature is higher than critical temperature, the heat treating will become a de-embrittlement process; otherwise, it will be an embrittlement process. The critical temperature of embrittlement will shift to the direction of low temperature as further embrittlement. As a result, some stages of step-cooling test would change into a de-embrittlement process. The grain boundary desegregation function of impurity element P was deduced based on the theory of element diffusion, and the theoretical calculation and experimental results show that the further embrittlement or de-embrittlement mechanism can be interpreted qualitatively and quantitatively by combining the theory of equilibrium grain boundary segregation with constant embrittlement curve. 相似文献
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Withthedevelopmentofmodernindustry ,thereisaincreasingdemandforhighstrengthsteelswithatensilestrengthexceeding 12 0 0MPatobeusedforhigherstrengthboltsintheconstructionin dustry ,automobile parts ,long spansuspensionbridges,andsoon[1] .However ,forquenchedandtemp… 相似文献
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通过金相显微镜、扫描电镜等分析方法对铁素体钢低倍检验后发现的疑似白点缺陷进行了分析判断,发现疑似白点缺陷在金相显微镜下呈锯齿状裂纹,为白点裂纹形貌特征。通过对低倍试样上断口的检验发现,低碳铁素体钢宏观断口处分布有银灰色圆形斑点,为白点缺陷特征,铁素体不锈钢宏观断口无明显白点特征,但铁素体不锈钢的疑似白点显微断口有沿晶断裂和以夹杂物为裂纹源的解理断裂两种,都具有氢脆断口特征,由此判断,两种铁素体钢中缺陷均为白点缺陷。铁素体不锈钢中的白点缺陷与常见白点断口上的浮云状、波纹状、解理羽毛、显微疏松等形貌特征有所不同,而且不同铁素体不锈钢试样上的白点缺陷断口形貌也不同,一处为沿晶断裂,一处为以夹杂物为裂纹源的解理断裂。 相似文献
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摘要:随着汽车、机械装备、航空航天、船舶等工业领域的快速发展,降低成本、提性减重、实现节能减排已成为各个行业为之努力而奋斗的目标,而高强度钢材是实现汽车工业产品轻量化和安全性的重要依托。然而,随着汽车用钢强度的不断提升,氢致延迟断裂问题越发突出,已经成为阻碍高强度汽车用钢广泛应用的一个关键因素。主要介绍先进高强度汽车用钢(热成形钢、双相(DP)钢、淬火配分(Q&P)钢)最新的研究成果,并对其氢致延迟断裂特性、机制和测试评价技术方法等方面做了简要介绍,为相关领域的研究人员提供参考。 相似文献
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摘要:铁素体作为酸性环境用管线钢的主要组织类型之一,探究其晶界结构与管线钢氢致开裂(HIC)敏感性之间关系,可为进一步优化管线钢的抗HIC性能提供指导。对热轧态管线钢进行不同工艺热处理,采用扫描电子显微镜(SEM)、电子背散射衍射(EBSD)、透射电子显微镜(TEM)观察了试样的晶界、位错结构及氢鼓泡、氢致裂纹形貌,用电化学充氢及动态充氢方法对试样的HIC敏感性及氢致塑性损失进行了测试,用电化学氢渗透及氢微印实验对试样的氢捕获效率及氢原子分布进行了观察与分析,探索了铁素体晶界结构与HIC敏感性之间内在关联。其结果表明:当材料中以小角度晶界占主导或大小角度晶界比例约为1∶1时,对氢原子的捕获效率较高,HIC敏感性也相对较大;大小角度晶界均能捕获氢原子,但与氢的作用机制不同,大角度晶界主要促进氢致裂纹萌生,而小角度晶界主要促进氢致裂纹扩展。 相似文献
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尽管中锰钢的强塑性等力学性能得到了较大幅度提升,但要大规模地应用于汽车部件制造,仍需解决材料在制造和服役过程中面临的氢脆等系列难题,在此背景下,利用电化学充氢、氢热分析仪、慢应变速率拉伸试验机及扫描电镜等研究了两种不同状态(热轧和温轧)0.1C 5Mn中锰钢在650 ℃保温30 min(两相区退火处理)后的氢脆敏感性。结果表明,热轧和温轧退火样的微观组织分别为板条状及等轴+板条状的铁素体与奥氏体的复相组织。尽管温轧退火样的强度比热轧退火样提高了约150 MPa,伸长率降低了约5%,但两者的强塑积均可达到约33 GPa·%。两种试验材料充氢时吸附的氢绝大部分为对应低温逸出峰的可扩散性氢,温轧退火试验材料的氢脆敏感性低于热轧退火钢。充氢热轧退火样断口起裂处的断裂机制为穿晶断裂+沿原奥氏体晶界的脆性沿晶断裂;温轧退火样的起裂处则为空心韧窝+包括奥氏体(变形后转变为马氏体)晶粒的实心韧窝,后者实际上为沿着奥氏体和铁素体界面起裂的一种脆性沿晶断裂。造成两种试验材料氢脆敏感性不同的原因主要是其微观组织及其所引起的氢致断裂方式的差异。 相似文献
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《钢铁研究学报(英文版)》2011,(Z1):685-689
With the exploitation of high sour and deep oil well in china,the corrosion medium containing CO 2,H 2 S,Cl-and organic acid threaten the safety of oil equipment and tube steel severely.In this article,many experiments,including corrosion tests,tensile tests,hydrogen concentration measurement tests and SEM examinations,were performed to investigate the effect of H 2 S partial pressure and loading stress on the mechanical property of oil tube steel P110S in high temperature and high pressure environment containing H 2 S/CO 2.The tensile strength and yield strength during fracture process of P110S steel were obtained experimentally and the fracture morphology was analyzed by SEM.The results indicate that both tensile strength and yield strength decreased after corrosion.The damage of tensile strength and yield strength became serious with an increase in H 2 S partial pressure and loading stress.According to the fracture analysis,the fracture mode exhibited quasi-cleavage and dimple mixed fracture,and the area of quasi-cleavage pattern increased with H 2 S partial pressure and loading stress increasing.According to the results of tensile test and hydrogen concentration measurement test,the tensile property degradation is closely associated with diffusible hydrogen concentration of P110S steel in the H 2 S/CO 2 environment. 相似文献