共查询到20条相似文献,搜索用时 31 毫秒
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针对新研制的通过淬火、中间淬火和回火处理工艺获得的超低碳9Ni钢,对其进行了实际焊接接头和模拟焊接热影响区低温韧性的研究.经-196℃低温夏比V形缺口冲击试验、金相显微观察、透射和扫描电镜分析.结果表明,单道焊粗晶区组织为粗大的板条状马氏体,低温冲击韧性较低.多道焊热影响区组织中,在马氏体板条间析出了逆转奥氏体,这种呈弥散分布的逆转奥氏体能细化晶粒、提高焊接热影响区的低温韧性.认为采用小热输入、多层焊、低的层间温度,可使焊接接头获得高的低温冲击韧性. 相似文献
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研究了锅炉用钢20g厚板电子束焊接深比超过20:1时,焊接接头的组织特点及接头韧性,当焊缝深度比超过20:1时,热影响区将产生高碳马氏体组织,从而造成热影响区的脆化。 相似文献
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G. Y. Perez-Medina H. F. López P. Zambrano F. A. Reyes-Valdés 《Journal of Materials Engineering and Performance》2013,22(2):607-612
In this study, a TRIP-800 steel was welded using a Laser CO2 process, and the resultant microstructures were characterized by optical, scanning, and transmission electron microscopy (TEM) means. It was found that the microstructure of the steel in the as-received condition consisted of ferrite, bainite, and retained austenite (RA), including some martensite. In particular, TEM observations indicated that the developed martensites were high carbon twinned martensites. It was found that laser beam welding (LBW) promoted the development of up to 23% martensite in the fusion zone (FZ) and up to 30% in the heat-affected zone (HAZ). In addition, determinations of RA using x-ray diffraction indicated that the amount of RA developed in the FZ was relatively small (<6%). Confirmation for the relatively large amounts of martensite in both the FZ and HAZ was indirectly made by the shape of microhardness profiles, which resembled a “top hat.” Tensile testing in welded strips indicated a loss of strength and ductility. An examination of the fracture surfaces indicated that the steel fractured in a brittle fashion at the HAZ-BM interface. Apparently, the development of relatively large amounts of martensite in the HAZ reduced the steel toughness. In turn, this indicated that LBW leads to martensite embrittlement in the HAZ regions, but not at the parting line of the FZ. 相似文献
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A 12%Cr ferritic/martensitic steel,HT-9,has been used as a primary core material for nuclear reactors.The microstructure and mechanical properties of gas tungsten arc butt welded joints of HT-9 in as-welded,and as-tempered conditions have been explored.In as-welded condition,the fusion zone (FZ) contained a fresh martensite matrix with delta (δ)-ferrite.Theδ-ferrite was rich in Cr and depleted in C compared with the matrix.The heat-aff ected zone (HAZ) could be divided into three areas as the distance from the fusion line increased:δ-ferrite/martensite duplex zone,fully recrystallized zone,and partly recrystallized zone.Prior austenitic grains did not coarsen in theδ-ferrite/martensite duplex zone due to the newly nucleatedδ-ferrite grains and incompletely ferritizing (δ-ferrite) during the welding thermal cycle.The weldment microhardness distributed heterogeneously with values above 600 HV _(1.0 )in the HAZ and FZ and 250 HV _(1.0 )in the base metal (BM).Solute C in the matrix,induced by the dissolution of carbide during the welding process,dominated the microhardness variation.Low toughness was observed in the FZ with a quasi-cleavage fracture tested from-80 to 20℃.The tensile fracture occurred in the relatively soft BM tested from 20 to 600℃.In as-tempered condition (760℃ for 1 h),M _(23 )C _6-type carbides precipitated within the martensitic laths,the lath boundaries,and theδ-ferrite/martensite interfaces.Moreover,V,Cr,Mo-rich nitrides with very small size also precipitated in theδ-ferrite/martensite interface.The tempering treatment improved the homogenous distribution of weldment hardness significantly.Tensile fracture still occurred in the BM of the weldment specimens tested from 20 to 600℃.The impact toughness improved significantly,but the ductile–brittle transaction temperature was-12℃ which was higher than that of the normalized and tempered (NT) BM.δ-ferrite was considered to be one of the major factors aggravating the impact toughness in the FZ. 相似文献
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针对核聚变反应堆试验包层模块(TBM)中使用的CLF-1低活化铁素体/马氏体钢进行焊接试验,采用15 kW光纤激光,实现了17.5 mm厚CLF-1钢的穿透焊接,得到了正反表面成形良好、无明显缺陷的焊接接头,并对接头显微组织及力学性能进行了分析研究. 结果表明,焊缝区主要为粗大的板条马氏体;熔合线附近热影响区为细小的板条马氏体和少量贝氏体;不完全淬火区为经焊接热循环作用下二次回火的回火索氏体及马氏体双相组织;接头室温及550 ℃高温抗拉强度较高,均断裂于母材;焊缝显微硬度高于母材,且热影响区无明显软化;接头冲击韧性良好. 接头综合力学性能良好. 相似文献
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针对1Cr11Ni2W2MoV不锈钢开展闪光对焊试验,研究不同焊后热处理制度对其焊接接头组织和力学性能的影响。结果表明:采用闪光对焊方法焊接1Cr11Ni2W2MoV,能够获得优质的焊接接头。1Cr11Ni2W2MoV闪光焊焊态下焊缝组织为马氏体和少量的δ铁素体组织,焊接接头具有较好的拉伸性能,但塑性和韧性较差。经过淬火+回火热处理后组织表现为回火索氏体组织,焊接接头的抗拉强度、塑性和韧性等性能均得到改善。在1000℃油淬+570℃回火状态下,焊接接头具有良好的综合力学性能。 相似文献
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采用熔化极活性气体保护焊(metal active gas arc welding, MAG焊)、等离子弧焊(plasma arc welding, PAW)和高频感应焊接方法获得铁素体+马氏体双相组织不锈钢00Cr12Ni的焊接接头,对其组织区域特征和力学性能进行了研究.典型的焊接接头热影响区(heat affected zone, HAZ)可分为晶粒粗大,铁素体为优势相的高温热影响区(high temperature heat affected zone, HTHAZ)和晶粒细小,马氏体为优势相的低温热影响区(low temperature heat affected zone, LTHAZ).通过测量实际焊接热循环曲线的方法确定了HTHAZ及LTHAZ的温度范围,并采用热模拟研究HAZ不同区域的力学性能.结果表明,HTHAZ的热循环峰值范围为1 200℃至熔点,晶粒粗大呈现为脆性;LTHAZ热循环峰值范围为800~1 200℃,室温组织为非平衡低碳板条马氏体,韧性较好,但低于0℃时呈脆性. MAG焊接头由于奥氏体焊缝为钟罩形,HAZ冲击试验时断面包括奥氏体焊缝,因此冲击性能较好;... 相似文献
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与传统电弧焊相比,激光焊接厚板优势明显。采用纯激光焊和激光电弧复合焊等多道焊接技术实现了28 mm厚10Ni3CrMoV钢的高效焊接,采用光学显微镜分析焊缝、热影响区和焊缝重叠区的组织,激光复合焊缝组织主要为针状铁素体,纯激光焊缝、粗晶区和细晶区组织主要为板条马氏体,激光复合焊缝重叠区组织为粒状贝氏体+马氏体,纯激光焊缝和激光复合焊缝重叠区组织为马氏体+少量粒状贝氏体。测试了焊接接头的力学性能,结果表明,激光复合焊缝金属的冲击韧性较高,焊接接头的抗拉强度和屈服强度与母材相当,延伸率略小于母材,焊接接头的最大硬度小于360 HV,弯曲性能合格。 相似文献
10.
Microstructure and fracture toughness of electron beam welded joints of 30CrMnSiNi2A steel 总被引:1,自引:0,他引:1
Two post-weld heat-treatments ( PWHT) , 900℃ oil quenched and low temperature tempered (PWHTA) and high temperature tempered and then 900~C oil quenched and low temperature tempered ( PWHTB ) , are employed to treat the weldment. Then the effect of two post-weld heat-treatment processes on the microstructure, mechanical properties and fiacture toughness of electron beam welded joints of 30CrMnSiNt‘2A steel have been discussed. The results show that, after two kinds of PWHT the microstructure and hardness at every zones of EBW joints are nearly same. Although the welds have good mechanical properties, fiacture toughness of both weld and heat-affected zone (HAZ) is low, the CTOD values of welds are comparatively higher than that of HAZ. Microstructure and fiacture toughness of two EBW joints have no evident differences. 相似文献
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对2.5mm厚BT20钛合金激光焊接接头各区域(包括焊缝和热影响区)的组织特征进行了观察,并测试了焊接接头各区域的显微硬度分布以及室温条件下的接头拉伸、弯曲、疲劳及断裂韧度等力学性能.研究结果表明,焊接接头各区域的微观组织均以"网篮状"马氏体组织为特征,接头各区域显微硬度均高于母材.接头静抗拉强度基本与母材相当,塑性略低于母材.接头中值疲劳寿命与应力水平有很大的关系.在低应力水平下,接头中值疲劳寿命与母材相当,而在高应力水平下,接头中值疲劳寿命远低于母材.接头焊缝金属的断裂韧度显著低于母材,而热影响区断裂韧度则介于母材和焊缝金属之间. 相似文献
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利用Gleeble-3500试验机模拟了贝氏体钢辙叉铝热焊热影响区各位置的热循环过程,研究了焊后正火工艺对热影响区性能与组织的影响. 热模拟结果表明,铝热焊后对接头进行900 ℃的正火处理,可以使焊接热影响区重新转变为贝氏体组织,提高了冲击韧性并改善硬度分布均匀性,强度值也达到或接近母材水平. 根据热模拟试验结果,对贝氏体钢辙叉和U75V钢轨进行了实际的铝热焊接. 结果表明,900 ℃火焰加热正火处理后,焊缝及热影响区软化区的硬度和抗拉强度值均有明显提高,这对提高焊接接头的使用寿命有重要作用. 相似文献
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1'neveIOnmentorSedation~unesatthebetituteorweIForweldabilityevaluationofnewlydevelopedsteelsattheinstituteofWeldinginGliwicesimulationtechniqUeshavebeenaPPliedsince1970.Thefirstweldingthermalcyclesimulatorwasbasedonresistantheatingofsmallsamples,Wherethecurrentwascondoledbyaftmctiongeneratorcomposedof24resistorsadjustedaccordingtothereqUiredthermalcycle.Thebasicinconvenienceofthecontrolsystemwasarectilinearsegmentapproximationandatimeconsullingsettingofindividualresistorsbasedonatrialander… 相似文献
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In this article, the influence of simulated thermal cycles for the heat-aff ected zone(HAZ) on the microstructural evolution and mechanical properties in a low-carbon high-strength Cu-bearing steel was investigated by microstructural characterization and mechanical tests. The results showed that the microstructure of the coarse-grained heat-aff ected zone(CGHAZ) and the fine-grained heat-aff ected zone(FGHAZ) was mainly comprised of lath martensite, and a mixed microstructure consisting of intercritical ferrite, tempered martensite and retained austenite occurred in the intercritically heat-aff ected zone(ICHAZ) and the subcritically heat-aff ected zone(SCHAZ). Also, 8–11% retained austenite and more or less Cu precipitates were observed in the simulated HAZs except for CGHAZ. Charpy impact test indicated that the optimum toughness was obtained in FGHAZ, which was not only associated with grain refinement, but also correlated with deformation-induced transformation of the retained austenite, variant confi guration as interleaved type and a relatively weak variant selection. The toughness of ICHAZ and SCHAZ exhibited a slight downtrend due to the presence of Cu precipitates. The CGHAZ has the lowest toughness in the simulated HAZs, which was attributed to grain coarsening and heavy variant selection. In addition, the contribution of Cu precipitates to yield strength in simulated HAZs was estimated based on Russell–Brown model. It demonstrated an inverse variation trend to toughness. 相似文献
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依据AWS D1.1M-2010,ISO 15653:2010对液化天然气(LNG)低温储罐钢9Ni钢TOP-TIG(T&T)焊接接头进行了夏比冲击韧性试验和断裂韧性(CTOD)试验. 另外对接头进行组织、XRD及断口分析,研究了9Ni钢T&T焊接接头低温韧性性能. 结果表明,T&T焊接接头冲击吸收功远高于标准要求,冲击韧性很好;热影响区组织主要为板条马氏体,位错密度高,断口韧窝浅而小,呈准解理断裂,焊缝区CTOD值较高,组织主要为奥氏体树枝状结构和等轴晶,断口含有大量韧窝,断裂韧性好. 9Ni钢T&T焊接接头-196 ℃低温韧性好,可以满足相关工程标准的要求. 相似文献
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随着工程机械的大型化,需要采用800MPa低合金高强度钢结构。为了保证焊接接头具有良好的韧性,必须合理控制焊接热作用,避免焊接接头脆化。本研究采用热模拟试件,研究了焊接冷却时间及加热温度对800MPa低合金高强度钢焊接热影响区(HAZ)断裂韧性的影响及其显微组织特征。发现在t8/5为18s时,HAZ具有最好的断裂韧性。随着t8/5的增加,奥氏体晶粒逐渐长大,马氏体的体积分数逐渐降低,粒状贝氏体的数量不断增加,断裂韧性逐渐下降。t8/5大于45s,LT方向试件出现脆性失稳现象。焊接接头各区的韧性分布是,过热区的断裂韧性最好,两相区的断裂韧性最差,粗晶区的韧性优于细晶区。影响HAZ韧性的主要因素是贝氏体的形态和分布。研究结果为制定合理的焊接工艺和大型工程机械的断裂安全评定奠定基础。 相似文献
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用Gleeble-3800热模拟机对Ni-Cr-Mo-B低合金高强度钢进行不同焊接热输入条件的下热模拟试验,研究了模拟焊接热影响区的组织和性能,探讨了不同热输入条件(对应不同的t8/5)对钢中微观组织及形态的影响以及组织与低温韧性的关系。结果表明:随着热输入能量的增加,此类钢焊接热影响区的低温韧性呈现先增后降的规律。当以中等焊接热输入施焊,在热影响区形成贝氏体/马氏体复相组织,先形成的贝氏体对原始奥氏体晶粒的分割作用,使后生成的板条马氏体具有更细的板条束,从而获得最佳的低温韧性。而低热输入时形成全马氏体组织,高热输入时获得一定量的粒状贝氏体,两种组织的低温韧性均低于贝氏体/马氏体的复相组织。 相似文献
19.
TC4合金TIG焊接头组织转变与力学性能分析 总被引:2,自引:2,他引:2
针对TC4合金TIG焊接头微观组织特征以及焊接过程中的组织转变规律进行了研究,并对接头力学性能进行了分析.经历TIG焊接热循环之后,焊缝及热影响区粗晶区晶粒严重粗化,热影响区晶粒尺寸具有突变特征,过渡区组织呈带状分布,不存在明显的细晶区.升温过程中(α+β)→β转变过程包括两个阶段:原始β→高温β转变和原始α→高温β转变,而且在原始α→高温β转变开始之前,原始β→高温β转变已经完成.冷却过程中在β→α'转变区间冷速较慢时,α'相首先在高温β晶界上形核,并向晶内生长,生成针状α';在快速冷却时,α'相在晶内大量形核,形成"筐篮"组织.硬度测量结果表明,粗晶区部位存在一个软化区;接头抗拉强度与母材接近,接头性能优异.Abstract: The microstructure and phase transformation of TC4 alloy weld joints during TIG welding were investigated. The mechanical properties of the welded joints were also tested. When the TC4 alloy was heated by TIG arc, grains in the weld bead and heat affected zone (HAZ) were badly coarsening. The grain size in HAZ has mutant character. The microstructure in the transition region presented zonal distribution. There was no obvious fine grained region. In temperature-rise period, the transformation of (α + β)→β was divided into two processes which included the original β→ high-temperature β and the original α→ high-temperature β. And the previous phase transformation was finished before the next starting. In the cooling process, slowly cooling rate introduced α' phases nucleating at the high-temperature β grain boundary in the β→α transform temperature range. The α' martensite grew up into the center of the β grains and generated acicular martensite. With quicker cooling rate, large numbers of α' phase nucleated in the high-temperature β grains and generated orthogonally oriented martensites. Hardness measurements show there is a softened zone in HAZ. Tensile strength of welded joint was approximate with the base metal. And the properties of the welded joints were good. 相似文献
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通过斜Y坡口焊接裂纹试验、焊接热影响区最高硬度试验和焊接接头力学性能试验,系统地研究了A517Q齿条钢的焊接性. 结果表明,在拘束焊接时,A517Q齿条钢的焊接冷裂纹敏感性随钢板厚度由30 mm增大至60 mm而增大;提高预热温度有助于降低该钢的焊接冷裂倾向和热影响区的淬硬程度. 177.8 mm厚A517Q齿条钢板的焊接接头具有高强度和高韧性,能够满足使用性能要求;焊接热影响区的显微组织以低碳板条马氏体和板条贝氏体为主,该区硬度明显高出焊缝区和母材区,淬硬倾向较大,存在一定的冷裂风险. 相似文献