不同热处理状态AMS6308钢惯性摩擦焊接头组织及力学性能

在HWI-IFW-130型轴/径向多功能惯性摩擦焊机上,成功实现热轧态与热轧态AMS6308钢、淬火+回火态与淬火+回火态AMS6308钢惯性摩擦焊接. 对两种不同热处理状态的焊接接头进行检测分析. 结果表明,母材为热轧态的焊接接头,焊缝区为马氏体组织,热力影响区和热影响区为马氏体+贝氏体组织;母材为淬火+回火态的焊接接头,焊缝区为马氏体组织,热力影响区和热影响区为马氏体回火组织. 以焊缝为中心,显微维氏硬度呈对称分布,焊缝区显微维氏硬度最高;两种不同热处理状态母材获得的焊接接头,拉伸均断于母材.     

Microstructure and mechanical properties of E36 steel joint welded by underwater wet welding

The microstructure and mechanical properties of E36 steel joint welded by underwater welding using flux-cored wire are comprehensively investigated. The welding depth, welding current and welding voltage is 4 m, 130 A and 32 V, respectively. The weld metal is ferrite which varies in size, with carbide particles distributed on it, while the microstructure of HAZ is mixture of martensite of different size and some tempered structure. The microhardness of the weld metal is 190 HV. Almost all the tensile specimens fracture in weld metal and the average tensile strength of joint is 390 MPa, which is equal to 80% that of base metal. The tensile fracture morphology of joint presents obviously the characterization of brittle fracture, which displays the features of cleavage fracture and intergranular fracture.     

Effect of Laser Welding Process Parameters on Microstructure and Mechanical Properties on Butt Joint of New Hot-Rolled Nano-scale Precipitation-Strengthened Steel

A 4 kW fiber laser was chosen to weld the new hot-rolled nano-scale precipitation-strengthened steel with a thickness of 4.5 mm. The effect of laser power, defocusing distance, and welding speed on the welded joint appearance was examined, and the microstructure and mechanical properties on the typical butt joints were investigated. Results showed that increasing laser welding power may cause faster downward flow of molten metal to produce greater root humping. With the welding speed increasing, the average welding seam （WS） width decreased, and the average WS and heat-affected zone （HAZ） hardness increased. The microstructures of WS, fusion line, and coarse grain heat-affected zone were lath martensite, but the growth direction of the original austenite grain boundaries was significantly different. The microstructures of fine grain heat-affected zone were ferrite and martensite, and the microstructure of mixed grain heat- affected zone contained ferrite, massive M/A island, and a small amount of martensite. The micro-hardness values of WS, HAZ, and base metal （BM） were 358, 302, and 265 HV, respectively. The butt joint fracture at the BM far from the WS and the welded joint tensile strength are observed to follow proportional relationship with hardness.     

聚变堆用CLAM钢激光焊接接头显微组织及性能

对聚变堆用CLAM钢进行了激光焊接试验,并对接头进行740℃/1 h焊后回火处理,分别对热处理前、后接头的显微组织及性能进行了研究.结果表明,获得了成形良好、无缺陷的焊接接头;焊态下,焊缝由淬硬的板条马氏体和大量的δ铁素体组织组成.完全淬火区由板条马氏体和极少量的δ铁素体组成,其硬度高达545 HV;焊后热处理使焊缝及完全淬火区的板条马氏体分别转变为碳化物弥散分布的回火马氏体和回火索氏体组织.显著降低了接头的淬硬程度,最大硬度仅比母材高约15%;焊后回火热处理前、后接头的抗拉强度均高于基体母材,虽然焊后热处理使接头强度有所降低,但仍达到原始母材的98%以上.     

10Ni3CrMoV钢CO2激光多层焊的接头组织与性能

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。     

FV520B钢十字焊接接头的疲劳性能

用金相显微镜和扫描电镜观察了FV520B钢焊接接头母材、焊缝及热影响区的微观组织;并通过透射电镜给出了母材和焊缝的微观形貌。结果表明:母材组织为细小均匀的回火马氏体、弥散分布的析出相及高密度位错,而焊缝为粗大的板条马氏体及少量的析出相,说明母材力学性能优于焊缝。利用疲劳实验获得了高平均拉应力下接头的疲劳强度及S-N曲线等。通过对疲劳断口的观察,发现疲劳断裂主要有两种形式:破坏于焊趾处和焊接缺陷处,由于这里严重的应力集中,加速了疲劳裂纹的萌生。     

Lap joining of titanium alloy using laser welding and resistance seam welding combined process

Titanium alloy lap joints were performed by combined laser welding and resistance seam welding process. The welding characteristics of this combined process were investigated compared with that of laser welding. The experimental results indicate that the combined process welded joint has larger weld width at the lap surface. The joint tensile shear force of combined process is 2.5 times that of laser welding. There are some pores around the lap surface in laser welded joint, and most pores can be eliminated by resistance seam welding process. Metallographic examinations of combined process welded joint reveal that the microstructure in heat-affected zone (HAZ) and weld zone has the acicular martensite morphology, which causes that the microhardness in HAZ and weld zone increases compared with the base metal, and the microhardness in weld zone is highest.     

低活化铁素体/马氏体钢厚板光纤激光焊接接头组织及力学性能分析

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.     

DP590镀锌双相钢CMT焊接接头显微组织及力学性能

针对汽车制造中薄板焊接质量问题及鉴于汽车行业对镀锌双相钢的大量需求,在弧长修正系数为0,送丝速度为3.0 m/min,焊接速度为400 mm/min的焊接工艺参数下,对1.0 mm厚的DP590镀锌双相钢进行了CMT搭接焊试验,并通过X射线衍射仪、扫描电子显微镜与维氏硬度计等设备研究了焊接接头的显微组织与力学性能。试验结果表明,CMT焊接DP590镀锌钢能够得到成形良好的焊接接头。焊缝组织主要为板条马氏体,粗晶区由板条马氏体和少量铁素体组成,细晶区组织多为马氏体及少量贝氏体,不完全相变区中的铁素体含量增加,马氏体含量减少;焊接接头拉伸试验断裂位置在不完全相变区,属于塑性断裂,最大载荷为10.48 kN,与母材接近。焊缝平均硬度值最高,约为260 HV,不完全相变区显微硬度值最低,约为170 HV。该研究为DP590镀锌双相钢薄板CMT焊接提供工艺参考,对汽车轻量化生产制造具有重要的工程意义。 创新点： (1)针对汽车用钢薄板焊接的难点,提出具有低热输入焊接特点的CMT工艺。 (2)研究DP590镀锌双相钢CMT焊接接头显微组织及力学性能,研究结果可为工厂实际生产提供理论依据与数据支持。     

钛合金激光焊接接头的组织和力学性能

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.     

薄板TC4钛合金TIG电弧和激光焊接接头晶粒尺寸与微观组织

对薄板TC4钛合金进行TIG电弧和激光焊接技术研究,重点分析了TIG焊接电流、焊接速度和激光输出功率对TC4钛合金焊接接头晶粒尺寸、微观组织和显微硬度的影响规律. 试验结果表明,在实现薄板TC4钛合金完全熔透的条件下,激光焊接具有更小热输入,接头焊缝区和热影响区宽度也显著降低. TIG焊接接头晶粒尺寸随热输入增加,呈现增加趋势. 随距焊缝中心位置增加,焊接接头晶粒尺寸均逐渐降低. TC4钛合金激光焊接接头焊缝区呈现魏氏组织特征,针状α'马氏体细小. 近缝热影响区组织为网篮状α'马氏体,而近母材热影响区为未转变α相和针状α'马氏体的双相组织. 随距焊缝中心位置增加,马氏体生成量逐渐减少,焊缝显微硬度值呈现降低趋势;同时相比于TIG焊接,TC4激光焊接接头具有更高的显微硬度.     

镍基高温合金焊接接头组织性能及工艺优化

采用不同的焊接工艺参数,对GH4169镍基高温合金薄板进行MIG焊接正交试验。通过金相试验,观察镍基高温合金焊接接头的显微组织,可以划分为焊缝中心等轴晶区、焊缝边缘柱状晶区、热影响区和母材组织。利用室温拉伸和显微硬度试验,测定镍基高温合金焊接接头的抗拉强度、断后伸长率与显微硬度等力学性能,并与母材的力学性能进行比较。使用极差分析法,研究焊接电流、电弧电压与焊接速度对接头力学性能的影响规律,并获得了优化的焊接工艺参数。     

电子束焊接对调质15CrMnMoVA高强钢组织及性能的影响

为实现高淬火倾向的航空高强钢材料的高质量接头,以15CrMnMoVA高强钢为研究对象,进行了电子束焊接工艺试验研究;针对不同结构的电子束焊接接头,分析了焊缝显微组织特征、焊接接头的显微硬度分布和力学性能,探讨了电子束焊接工艺对接头组织性能的影响。结果表明,15CrMnMoVA钢的焊缝中心形成了网篮状马氏体组织,其显微硬度为典型的马鞍形分布。不同锁底结构的电子束焊接接头的拉伸性能基本都与母材相当,但其疲劳性能差异明显,锁底长度为1.5 mm时焊接接头的疲劳性能较好。     

Characteristics of Laser Beam and Friction Stir Welded AISI 409M Ferritic Stainless Steel Joints

This article presents the comparative evaluation of microstructural features and mechanical properties of friction stir welded (solid-state) and laser beam welded (high energy density fusion welding) AISI 409M grade ferritic stainless steel joints. Optical microscopy, microhardness testing, transverse tensile, and impact tests were performed. The coarse ferrite grains in the base material were changed to fine grains consisting duplex structure of ferrite and martensite due to the rapid cooling rate and high strain induced by severe plastic deformation caused by frictional stirring. On the other hand, columnar dendritic grain structure was observed in fusion zone of laser beam welded joints. Tensile testing indicates overmatching of the weld metal relative to the base metal irrespective of the welding processes used. The LBW joint exhibited superior impact toughness compared to the FSW joint.     

焊后热处理对输送H_2S介质压力管道维修焊接接头组织性能的影响

采用手工钨极氩弧焊(TIG焊)打底,焊条电弧焊(SMAW)填充、盖面的焊接工艺对输送H_2S介质压力管道(20钢)进行维修焊接,并对其焊接接头进行720～750℃下保温1h的焊后热处理.对热处理前、后焊接接头组织和性能进行分析研究,结果表明:720～750℃×1h热处理使焊缝区与热影响区成针状分布的魏氏组织铁索体晶粒得到细化,并使其呈退化形态;焊缝区、热影响区与母材的显微硬度整体呈下降趋势;焊接接头抗拉强度大幅度提高,断裂均处在远离焊缝的母材上.焊后热处理有效地降低了焊接接头的残余应力,改变了残余应力的分布特征,使其分布趋于"均匀",拉应力大幅度降低.     

Relationships between microhardness,microstructure, and grain orientation in laser-welded joints with different welding speeds for Ti6Al4V titanium alloy

The microhardness curve trend and its relationships with microstructure and misorientation were analyzed to enhance the comprehension of the microstructure and mechanical property of micro-areas in Ti6Al4V laser-welded joints with different welding speeds. The microhardness measured on the fusion line (H_m) is the highest from the weld center to the base metal. H_m increases with increasing weld width in a welded joint and increasing degree of the non-uniformity in all studied welded joints. The microhardness decreases from the weld metal to the base metal with decreasing amount of martensite α’ and increasing amount of original α phase. When the microstructure is mainly composed of martensite α’, the microhardness changes with the cooling rate, grain size of the martensite, and peak values of the fraction of misorientation angle of the martensite in a wide weld metal zone or weld center at different welding speeds, whereas the difference is small in a narrow weld metal zone.     

700MPa级低合金高强钢低匹配焊接接头组织和性能研究

按照低匹配设计原则,采用熔化极气体保护焊对屈服强度为700 MPa级的低合金高强钢进行了焊接。采用光学显微镜、扫描电镜和力学性能试验研究了焊接接头的组织和性能。结果表明,焊缝区组织主要为针状铁素体和少量先共析铁素体,粗晶热影响区组织为上贝氏体;焊缝区显微硬度明显低于母材,焊缝区-40℃时的冲击韧度(AKV)为58 J,抗拉强度达到了母材抗拉强度的92.4%,焊接接头的综合力学性能良好。     

焊接速度对30CrMnSiNi2A钢电子束焊接头组织和力学性能的影响

30CrMnSiNi2A钢由于其出色的质强比成为制造飞机起落架、襟翼的重要材料。电子束焊的焊接速度对工程应用中30CrMnSiNi2A钢的微观结构和机械性能产生极大影响。接头微观组织从热影响区细小等轴的回火索氏体与马氏体混合组织,转变为焊缝区域的树枝状板条马氏体晶粒。显微硬度由母材向焊缝中心逐渐增高,焊缝区域显微硬度最高可达690HV0.2,约为母材的两倍;拉伸强度最高为842MPa,达到母材强度的96.9%。此外随着焊接速度的提高,晶粒尺寸减小,显微硬度随之提高;但HAGB和渗碳体数量的下降对接头强度不利,使得接头抗拉强度随焊接速度提高而下降,不同焊接速度下接头断裂模式均为脆性断裂。     

TC4厚壁管全位置PAW工艺及接头性能分析

介绍了一种适合TC4钛合金厚壁管的等离子弧焊接新工艺,通过对工艺参数分区控制和优化匹配,实现了钛合金管道全位置优质焊接.采用光学显微镜、扫描电镜以及显微维氏硬度仪分别对特征位置焊接接头的显微组织、断口形貌以及显微硬度进行表征.结果表明,特征位置接头焊缝区及热影响区显微组织均主要由网篮状α'相、针状α相以及粗大β相组成;接头拉伸性能良好,拉伸试样均断裂于母材处;冲击试样的断裂形式为韧性断裂;焊缝区及热影响区硬化区的硬度值高于母材.     

G115钢CMT + P焊接工艺及组织和性能

基于冷金属过渡加脉冲(CMT + P)的焊接方法,研究了新型回火马氏体耐热钢G115的焊接性以及焊接接头组织和性能. 结果表明,焊接接头经热处理后为回火马氏体组织,焊缝晶粒呈现出等轴晶和柱状晶两种不同的形貌,而焊接热影响区和母材晶粒均为等轴晶. 与焊条电弧焊(SMAW)相比,CMT + P焊接方法有效降低了热输入,大幅度减小了热影响区宽度,提高了焊接接头的拉伸性能和热影响区冲击韧性,焊接接头焊缝冲击韧性略有降低. 焊接接头的室温和高温拉伸断裂机理均为韧性断裂,室温拉伸断口的韧窝内存在一定量的析出相.