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1.
马龙  吴恒 《精密成形工程》2022,14(10):113-119
目的 采用光纤激光对ZK镁合金进行焊接,分析焊接工艺参数对焊接接头性能的影响规律。方法 采用正交实验方法,在焊接过程中对焊接主要的工艺参数比如:激光的功率,焊接的速度,离焦量进行三因素三水平正交实验,采用拉力实验机对焊接接头进行抗拉强度测试,得到抗拉强度最大的工艺参数组合。对焊缝微观组织及断口形貌进行分析。结果 当激光功率为1 400 W、焊接速度为40 mm/s、离焦量为3 mm时,焊缝抗拉强度达到最高的308 MPa,达到母材抗拉强度的95%。结论 在合适的工艺条件下,光纤激光焊接过程中,如果热输入较低,焊接速度过快,导致熔池冷却速度非常快,同时细化了晶粒,提高焊缝接头的综合力学性能。  相似文献   

2.
采用10 kW的连续光纤激光器对3 mm厚的Ti75合金板进行激光焊接,通过调整不同的激光功率来获得全熔透的焊接接头.同时,观察了不同热输入下焊接接头的宏观形貌、微观组织,测试了焊接接头的力学性能和显微硬度,对接头不同部位的组织特征及成形原因进行了分析.结果表明,随着焊接过程中激光功率的增加,焊缝的宽度逐渐变大,在不同...  相似文献   

3.
张德芬  杨阳  王同举  谭盖  王松  朱亚  黄杰  李韬 《材料导报》2015,29(12):121-124, 134
采用光纤激光-MIG 复合焊和光纤激光焊分别对6009铝合金进行焊接,研究两种焊接方式下焊接接头的成型性、显微组织、拉伸性能、显微硬度、断口形貌的不同。研究表明:激光电弧复合焊的焊接速度是激光焊接的3倍;相比于激光焊,激光电弧复合焊焊缝中心显微组织更加细小;接头的抗拉强度达到母材的63%以上,而激光焊接的抗拉强度仅仅只有母材的38%;显微硬度试验表明:复合焊存在软化区,而激光焊接几乎没有软化区;断口分析表明:复合焊和激光焊的拉伸断口都是典型的韧窝状态,但是复合焊接的韧窝更加均匀。  相似文献   

4.
目的 针对目前铝合金和碳纤维增强热塑性复合材料(CFRTP)直接连接接头强度低的问题,对铝合金表面进行预处理,以提升异种材料的激光连接强度。方法 通过激光毛化工艺在铝合金表面预制微织构,然后利用光纤激光连接铝合金与CFRTP,研究了激光焊接工艺参数对铝合金与CFRTP焊接接头拉剪性能的影响。结果 当激光功率为750 W、焊接速度为0.2 m/min时,铝合金/CFRTP接头拉剪力达到最大值5 209 N,是未激光毛化的接头拉剪力的2.29倍。通过扫描电镜(SEM)对断口进行分析,发现界面断裂形式主要为CFRTP脱出和剪切断裂。采用SEM及能谱仪(EDS)对接头截面进行分析,发现结合界面处存在微观机械嵌合作用,同时在界面处存在元素过渡层。结论 随着激光功率的增大,焊接接头的拉剪力增大,但焊接功率较大会导致热输入过大,造成树脂发生热分解,导致焊接接头拉剪力降低。随着焊接速度的增大,焊接热输入降低,导致焊接过程中树脂熔化量减少,焊接接头的拉剪力降低。界面的机械嵌合作用使焊接接头具有较高的结合强度。  相似文献   

5.
倪晋尚 《精密成形工程》2023,15(10):177-186
目的 针对汽车高强钢SG1000焊接接头恶化等问题,研究了SG1000激光复合焊接的力学性能。方法 选用等强匹配焊丝MG90-G对高强钢SG1000进行激光复合焊接,对焊接接头进行拉伸和低温冲击韧性试验,并结合扫描和硬度监测等手段对焊缝组织和断口形貌进行分析。结果 由于激光的预热作用,高强钢SG1000激光复合焊接成形件的焊缝美观,焊接过程稳定可靠,焊接熔池深度较大,有效改善了传统焊接的咬边、飞溅、气孔等缺陷。焊缝组织主要由板条马氏体和奥氏体晶粒组成,热影响区的过热区内部板条马氏体和奥氏体晶粒比较粗大,而焊接母材主要为细小的板条马氏体和奥氏体晶粒。焊接拉伸断口主要为细小且较浅的韧窝,且韧窝底部存在第二相粒子及夹杂物,焊接拉伸断口断裂于热影响区且微观形貌为韧性断裂;冲击微观形貌主要由准解理小平面及河流花样组成,且存在一定数量大小不一的韧窝交错分布,焊接冲击断口断裂于热影响区且微观形貌也为韧性断裂。结论 焊缝热影响区的晶粒比非热影响区的晶粒粗大,拉伸和冲击断裂均发生于热影响区;随着激光功率的增大,复合焊接接头的力学性能呈现逐渐增强的趋势;随着焊接速度的增大,复合焊接接头的力学性能呈现先增强后削弱的趋势。高强钢SG1000激光复合焊接最佳工艺参数如下:激光功率为9.5 kW,焊接速度为0.8 m/min,对应屈服强度为1 072 MPa,抗拉强度为1 175 MPa,断裂伸长率为13.5%,冲击断裂吸收的能量为30.8 J、焊缝中心显微硬度为342 HV。  相似文献   

6.
目的探究Ta/Mo异种薄板激光熔钎焊的最佳焊接工艺参数。方法设计正交试验方案,得出理论最优工艺参数。采用SL-08型Nd:YAG脉冲激光焊机对薄板完成焊接得到焊接接头;通过微机控制电子万能试验机测试焊接接头的抗拉强度;通过显微硬度计测量焊接接头显微硬度;通过OM测试方法观察焊缝组织。并通过焊接接头的性能对得出的最优工艺参数进行验证。结果在最佳焊接工艺参数下,接头的最大平均抗拉强度为230 MPa,接近Ta母材的抗拉强度,拉伸试样断裂发生在近Ta热影响区;焊缝表面连续,可看到清晰的鱼鳞纹,焊缝背面宽度均匀,焊缝成形良好;焊缝中心区域出现了针状共晶组织,热影响区的晶粒都呈现不同程度的长大现象;形成接头的焊缝区硬度最高,钼母材次之,钽母材最小。结论通过正交试验得出的最优工艺参数是准确的,Ta/Mo异种薄板最佳焊接工艺参数为:激光功率P为20.8 W(激光功率百分比为26%),脉宽T为5.5 ms,脉冲频率f为4.0 Hz。  相似文献   

7.
A thin section martensitic stainless steel was welded by gas tungsten arc welding and characterized for the microstructure, hardness and corrosion behaviour in chloride solutions. Welds free from defects could be produced by autogenous welding under the optimized welding conditions. The weld metal was over-matched in terms of mechanical properties (hardness, tensile strength). The general corrosion resistance and the passivation behaviour of the weld metal/heat affected zone (HAZ) region were on par with that of the parent material in chloride and sulphuric acid test electrolytes; however, in terms of pitting corrosion resistance, the martensitic-structured weld metal/HAZ region was marginally inferior compared to its parent material.  相似文献   

8.
The heat treatable aluminium alloy AA2024 is used extensively in the aircraft industry because of its high strength to weight ratio and good ductility. The non-heat treatable aluminium alloy AA5083 possesses medium strength and high ductility and used typically in structural applications, marine, and automotive industries. When compared to fusion welding processes, friction stir welding (FSW) process is an emerging solid state joining process which is best suitable for joining these alloys. The friction stir welding parameters such as tool pin profile, tool rotational speed, welding speed, and tool axial force influence the mechanical properties of the FS welded joints significantly. Dissimilar FS welded joints are fabricated using five different tool pin profiles. Central composite design with four parameters, five levels, and 31 runs is used to conduct the experiments and response surface method (RSM) is employed to develop the model. Mathematical regression models are developed to predict the ultimate tensile strength (UTS) and tensile elongation (TE) of the dissimilar friction stir welded joints of aluminium alloys 2024-T6 and 5083-H321, and they are validated. The effects of the above process parameters and tool pin profile on tensile strength and tensile elongation of dissimilar friction stir welded joints are analysed in detail. Joints fabricated using Tapered Hexagon tool pin profile have the highest tensile strength and tensile elongation, whereas the Straight Cylinder tool pin profile have the lowest tensile strength and tensile elongation. The results are useful to have a better understanding of the effects of process parameters, to fabricate the joints with desired tensile properties, and to automate the FS welding process.  相似文献   

9.
目的 提高紫铜激光焊接接头的力学性能,并分析激光工艺参数对焊缝外观及焊缝微观组织的影响规律。方法 分别对蓝光半导体激光与近红外光纤激光焊接紫铜的工艺参数进行优化设计,采用光学显微镜观察焊缝的外观形貌,采用拉力机测试焊缝的抗拉强度,采用金相显微镜观察和分析焊缝的微观组织。结果 当采用近红外光纤激光进行焊接时,功率为2 000 W,焊接速度为20 mm/s,焊缝抗拉强度为156 MPa。当采用蓝光半导体激光进行焊接时,功率为500 W,焊接速度为20 mm/s,焊缝抗拉强度为246 MPa,达到母材抗拉强度的80%。结论 由于铜对蓝光波长的吸收率较高,当采用蓝光半导体激光进行焊接时,热量输入较低,焊缝的变形相对较小,并且焊缝中心各个方向上的温度梯度相同,容易形成等轴晶,有利于力学性能的提高。  相似文献   

10.
AA6061-T6 aluminium alloy (Al–Mg–Si alloy) has gathered wide acceptance in the fabrication of light weight structures requiring high strength-to-weight ratio and good corrosion resistance. The friction stir welding (FSW) process and tool parameters play major role in deciding the joint characteristics. In this research, the tensile strength and hardness along with the corrosion rate of friction-stir-butt welded joints of AA6061-T6 aluminium alloy were investigated. The relationships between the FSW parameters (rotational speed, welding speed, axial force, shoulder diameter, pin diameter and tool hardness) and the responses (tensile strength, hardness and corrosion rate) were established. The optimal welding conditions to maximize the tensile strength and minimize the corrosion rate were identified and reported here.  相似文献   

11.
对于焊接性较差的碳化硅颗粒增强镁基(SiCp/Mg)复合材料,采用高能激光束进行了焊接.通过选择合适的激光焊工艺参数,可焊成外观成形及性能均良好的焊接接头.激光焊的输出功率(P)、焊接违反(v)、脉冲频率(f)、脉冲宽度(w)对接头强度都有影响,其中尤以激光输出功率与焊接速度的比值,即焊接线能量P/v的影响最大.对于厚度为1mm的对接缝,试验所得最佳工艺参数为:P=170Wv=7.5mm/s,f=30Hz,w=5ms.焊接时使用氢气(Ar)进行保护.所得拉伸强度值为104.3MPa,达到了母材的52%.另外,本文还应用多项式回归法建立了焊接接头拉伸强度与工艺参数关系的数学模型.  相似文献   

12.
目的通过探索基层金属厚度对复合板激光穿透焊接的影响规律,分析其影响度与焊接速度、激光功率的差别,为双金属复合材料激光穿透焊接提供更多的技术支撑。方法以焊接速度、激光功率和基层金属厚度为变量,设计了三因素三水平的正交实验,对X65/DSS2205层状双金属复合材料进行激光穿透焊接实验,对不同焊接条件下接头的显微组织进行观察分析,采用EDS面扫方法对焊缝复层区进行成分扫描,测量接头复层侧动电位极化曲线,并比较了基层金属厚度的影响度较焊接速度与激光功率的大小。结果双金属复合板激光穿透焊接接头显微组织在厚度方向存在明显的分层;基层金属厚度为1.2 mm时,复层贵金属元素保留量最大;随着基层金属厚度的减小,接头综合耐腐蚀性能提高;基层金属厚度对接头耐腐蚀性能的影响小于焊接速度和激光功率2个变量;焊接速度为2.5 m/min,激光功率为3500 W,基层金属厚度为0.8 mm时,接头耐腐蚀性能最优。结论基层金属厚度对于复合板激光穿透焊接接头的焊缝复层元素含量、以及接头复层一侧耐腐蚀性能都有较为明显的影响,但相比于焊接速度与激光功率,其影响度相对较小,因此在进行复合板激光穿透焊接时,在选定基层金属厚度后,仍要对焊接速度和激光功率进行优化工艺设计。  相似文献   

13.
目的 添加0.05 mm厚的Ni箔作为中间层,对3 mm厚的TC4钛合金和2A14铝合金进行搅拌摩擦焊,分析Ni对接头力学性能的影响。方法 采用扫描电镜、EDS能谱及XRD衍射等微观表征分析方法,对焊接接头的断口形貌、成分进行分析,探究Ni箔对焊接接头力学性能的影响。结果 由于钛合金和铝合金存在较大的物理化学性能差异,Ti/Al异种金属焊接性较差,界面容易产生TiAl3、TiAl、Ti3Al等金属间化合物,其中脆性相TiAl3对接头性能的影响最大,会导致综合力学性能下降。当加入中间层材料Ni后,由于Ni与Al晶体结构均属于面心立方,因此Ni与Al的扩散系数大于Ti与Al的扩散系数,Ni和Al之间优先形成金属间化合物且弥散分布于焊缝中,从而缩短了Ti与Al之间的相互扩散时间,减少了TiAl3相的生成。结论 在未添加中间层材料时,接头平均抗拉强度为237.3 MPa,约为2A14铝合金母材抗拉强度的56.7%;当添加中间层Ni后,对焊缝中金属间化合物的种类和数量进行了调控,减少了对性能影响最大的TiAl3相的生成,接头平均抗拉强度达到285.3 MPa,为2A14铝合金母材抗拉强度的68%。  相似文献   

14.
Ti-Al-Zr-Fe titanium alloy sheets with thickness of 4 mm were welded using laser beam welding (LBW) and laser-MIG hybrid welding (LAMIG) methods. To investigate the influence of the methods difference on the joint properties, optical microscope observation, microhardness measurement and mechanical tests were conducted. Experimental results show that the sheets can be welded at a high speed of 1.8 m/min and power of 8 kW, with no defects such as, surface oxidation, porosity, cracks and lack of penetration in the welding seam. In addition, all tensile test specimens fractured at the parent metal. Compared with the LBW, the LAMIG welding method can produce joints with higher ductility, due to the improvement of seam formation and lower microhardness by employing a low strength TA-10 welding wire. It can be concluded that LAMIG is much more feasible for welding the Ti-Al-Zr-Fe titanium alloy sheets.  相似文献   

15.
Ti–22Al–27Nb alloys were welded using the laser beam welding process. The microstructure characterization and the tensile properties of the laser beam welded joints were investigated. The experimental results showed that a well-quality joint could be obtained using laser beam welding method. The fusion zone of the welded joint was composed of B2 phase. The tensile strength of the joints at room temperature was basically comparable to that of the base metal and the tensile ductility of the joints achieved 56% of the base metal. The average tensile strength of the welded joints at 650 °C was tested to be about 733 MPa, with the elongation of 2.93%.  相似文献   

16.
The joining of dissimilar Al–Cu alloy AA2219-T87 and Al–Mg alloy AA5083-H321 plates was carried out using friction stir welding (FSW) technique and the process parameters were optimized using Taguchi L16 orthogonal design of experiments. The rotational speed, transverse speed, tool geometry and ratio between tool shoulder diameter and pin diameter were the parameters taken into consideration. The optimum process parameters were determined with reference to tensile strength of the joint. The predicted optimal value of tensile strength was confirmed by conducting the confirmation run using optimum parameters. This study shows that defect free, high efficiency welded joints can be produced using a wide range of process parameters and recommends parameters for producing best joint tensile properties. Analysis of variance showed that the ratio between tool shoulder diameter and pin diameter is the most dominant factor in deciding the joint soundness while pin geometry and welding speed also played significant roles. Microstructural studies revealed that the material placed on the advancing side dominates the nugget region. Hardness studies revealed that the lowest hardness in the weldment occurred in the heat-affected zone on alloy of 5083 side, where tensile failures were observed to take place.  相似文献   

17.
The objective of the present study is to analyze the effect of dissimilar friction stir welding process parameters associated with the tool pin profile. Nine different welding experiments were conducted on EN AW 2024 and EN AW 5083 plates. Each of the welded joints was exposed to metallurgical and mechanical tests to determine the effect of the parameters on the welded joint's strength and characteristics. The welding responses or characteristics were analyzed using the statistical tools, grey relational analysis and analysis of variance. Thus, the contribution of each parameter to the process response (ultimate tensile strength and percentage of elongation) was analyzed, and an optimal welding condition was determined. The results of metallurgical analyses showed that the defective joints were mostly in the welded joints fabricated with a conical threaded pin, and the shape of the stir zone was affected by the pin profile and tool rotational speed. The metallurgical results were consistent with the tensile test results. Statistical analyses showed that the most effective parameter on the welded joint strength and elongation is tool rotational speed with 70.3 %. While the tool pin profile affects the stir zone shape, the strength and elongation are not affected. The effect of welding speed (5.6 %) is not significant on strength and elongation.  相似文献   

18.
S960 steel is an advanced low carbon and low alloy ultra-high strength steel (with a minimum yield strength of 960 MPa) developed by Tata Steel. At present, there is a scarcity of data for laser welding of such a material. In this study, 8 mm thick hot rolled and quenched S960 high strength low alloy (HSLA) steel plates were welded using a 16 kW fibre laser system. The microstructure, microhardness, and tensile properties were characterised, Charpy impact testing and three-point bending testing were carried out, and fracture surfaces were investigated. Preliminary results suggest that the laser welding process can produce single-pass welds which are free of macroscopic defects. The microstructures in the fusion zone and heat affected zone were predominately martensite and some self-tempered martensite, with grain size variation in different sub-zones. The tensile properties of the laser welded joint matched those obtained for the base material, with failure occurring in the base material away from the weld. While the welded joint performed well when subjected to bending, the impact toughness was reduced when compared with that of the base material.  相似文献   

19.
The laser welding input parameters play a very significant role in determining the quality of a weld joint. The quality of the joint can be defined in terms of properties such as weld bead geometry, mechanical properties and distortion. In particular mechanical properties should be controlled to obtain good welded joints. In this study, the weld bead geometry such as depth of penetration (DP), bead width (BW) and tensile strength (TS) of the laser welded butt joints made of AISI 904L super austenitic stainless steel are investigated. Full factorial design is used to carry out the experimental design. Artificial neural networks (ANNs) program was developed in MatLab software to establish the relationship between the laser welding input parameters like beam power, travel speed and focal position and the three responses DP, BW and TS in three different shielding gases (argon, helium and nitrogen). The established models are used for optimizing the process parameters using genetic algorithm (GA). Optimum solutions for the three different gases and their respective responses are obtained. Confirmation experiment has also been conducted to validate the optimized parameters obtained from GA.  相似文献   

20.
多层Al-Ti复合板爆炸焊接实验研究   总被引:1,自引:0,他引:1  
简要介绍了爆炸焊接生成多层复合板的机理及界面构型。以爆炸焊接生成轻质、高强Al Ti多层复合板为例,对爆炸焊接的实验装置、利用光学显微镜、显微硬度计和拉伸试验检验所生成的复合板的性能进行了详细论述。实验结果表明,焊接的多层复合板中各层都有硬化效果,钛层比较明显,并且新材料的强度和重量比与纯钛板较为接近。  相似文献   

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