交流等离子弧正极性焊铝的研究

本文是在用矩形波交流等离子弧焊接铝合金的基础上提出等离子弧正极性焊铝的新概念,并从电弧理论上分析了正极性焊接铝合金的优越性,还对“阴极清理作用”的水质进行了剖析。     

2195-2219异种铝合金焊接接头的微观组织和性能

用钨极氩弧焊(TIG)和变极性等离子弧焊(VPPA)对2195与2219异种铝合金进行平板对接焊，研究了不同焊接方法和在有无保护气氛条件下焊接接头的显微组织和性能。结果表明，在用TIG和VPPA工艺焊接的接头区域都没有出现宏观热裂纹，能量密度高、焊接快和热输入量小的VPPA工艺使焊缝区域较窄；异种铝合金焊缝接头熔合线附近的主要析出相为θ相，在焊缝区域有α-Al与θ相组成的共晶组织；在TIG工艺和有气氛保护的VPPA工艺的焊接接头区域没有出现局部软化现象，焊缝区域的硬度与2219侧母材相同。TIG工艺的焊接接头，其抗拉强度更高。     

不同介质水蒸气等离子弧焊接7A52铝合金接头组织性能研究

利用水蒸气等离子弧焊切设备,选择水及不同比例丙酮水溶液等作为电弧介质对7A52铝合金进行焊接,对不同介质水蒸气等离子弧的轴向电弧吹力进行测试,对不同介质水蒸气等离子弧焊接7A52铝合金接头的组织和性能进行分析研究。结果表明:丙酮浓度越大,轴向电弧吹力越大,焊缝熔深越深;随着丙酮的添加,电弧的氧化性降低,有利于提高焊接质量,丙酮含量为40%(体积分数)时焊接接头性能最好,焊缝组织比较均匀;接头热影响区存在不同程度的硬化和软化区域,这与轴向电弧吹力大小、电弧热量传导速度、热影响区组织中强化相转化以及时效状态密切相关。     

变极性等离子弧焊铝合金厚板工艺研究

变极性等离子弧焊是一种新型焊接方法,由于等离子弧对焊接工艺和规范参数的变化比较敏感,获得良好焊缝接头的合理规范参数范围窄、裕度小.本文通过工艺试验,探讨了变极性等离子弧焊16mm铝合金厚板的技术可行性,论述了其相对于传统弧焊工艺的优点.     

等离子弧焊接熔池和小孔形成过程数值分析

目的 研究等离子弧焊接穿孔过程中熔池内部的金属流动情况和小孔动态变化过程。方法 通过“传热-熔池流动-小孔”之间的相互耦合关系,建立了等离子弧焊接穿孔过程的数值分析模型,通过VOF方法追踪了小孔界面,采用FLOW-3D软件模拟了等离子弧焊接熔池和小孔的形成过程,定量计算了等离子弧焊接温度场、熔池流场及小孔形状;分析了等离子弧焊接熔池和小孔行为;并通过等离子弧焊接实验数据验证了模拟结果。结果 当焊接时间为0~1.0 s时,小孔深度曲线与熔深曲线几乎相同,小孔底部紧贴熔池底部;在2.8 s以后,小孔深度曲线与熔深曲线有一定距离,小孔深度曲线在一定范围内波动,等离子弧焊接电弧挖掘作用到达极限,电弧压力与其他力达到平衡状态。模拟的焊缝熔深为8.04 mm、熔宽为13.20 mm,实验测得的焊缝熔深为8.00 mm、熔宽为13.42 mm。结论 构建的随小孔动态变化的曲面热源模型和电弧压力模型可以描述等离子弧焊接过程中的电弧热-力分布;模拟出了等离子弧焊接熔池和小孔动态演变过程;模拟得到的等离子弧焊接焊缝形貌与实验测得的焊缝形貌基本吻合。     

铝壳体焊接的工艺设计及新技术应用

通过分析铝合金焊接特点和批量生产性质,进行多种焊接工艺方案的比较.认为采用变极性等离子焊接工艺及支管焊接新技术,可提高焊接效率,保证焊接质量的稳定性,获得良好的经济效益.     

CLAM钢穿孔等离子超声电弧焊接激励频率的优化

为了优化超声电弧焊接激励频率,针对穿孔等离子超声电弧焊接熔池进行了计算机模态分析.根据穿孔等离子弧焊接特点,利用特定的数值分析模型,通过ANSYS软件计算超声电弧焊接熔池模态,分析与模态频率相对应的熔池响应情况.最后,分别施加不同大小的超声电弧频率,以3组4.5 mm厚的中国低活化马氏体(CLAM)钢板为实验材料进行平板对接焊试验.结果表明:在谐振条件下,焊缝区面积增大,组织的细化效果较好,界面棒状碳化物生长得到抑制,同时焊缝区硬化现象得到显著改善;利用这种方法基本达到了超声电弧频率优化的目的.     

等离子-MIG焊在有色金属焊接中的应用研究现状及展望

随着复合焊接成为焊接领域的热点,等离子-MIG焊作为一种高能量束流的焊接方法得到了广泛的研究,等离子-MIG焊具备阴极雾化的功能,有利于清理金属表面的氧化膜,对有色金属焊接有独特的优势。介绍了同轴式和旁轴式等离子-MIG焊的工作原理及优缺点,从数值模拟、控制与监测方法、工艺参数研究3个方面对等离子-MIG焊在有色金属焊接中的应用研究现状进行了分析。分析结果表明,等离子-MIG焊在铝合金材料焊接中研究进展显著,已经能够实现高质量的焊接,并开展了在镁、铜等其他有色金属焊接方面的研究,取得了一定的效果。最后对等离子-MIG焊的应用前景和发展方向进行了展望,等离子MIG焊在双电弧耦合机理、多物理场的协同工作、系统稳定性等方面还有待深入研究。     

交流电弧超声对SiC_p/6061Al焊接接头的作用机理研究

为了改善SiCp/6061Al的焊接性能,在其焊接过程中引入了电弧超声技术.应用自主研制的交流电弧超声等离子焊接设备,以自制的Al-15Ti-3Si药芯焊丝为填充材料,在不同频率的电弧超声作用下对SiCp/6061Al进行了等离子弧原位焊接,研究了电弧超声对焊接接头的作用机理.实验结果表明：电弧超声可使新生Al3Ti相...     

高铝粉煤灰活性剂影响TIG电弧行为研究

为了研究高铝粉煤灰作为活性剂对钨极氩弧焊电弧特性的影响规律,继而明确复合成分活性剂调控焊接电弧增加焊缝熔深的机制。基于自行开发的数据采集平台,进行了实时焊接电流、电压、焊接热循环的数据采集;基于霍尔传感器测量了电弧电流密度及其作用半径;用自制的电弧力测量装置,研究了工件表面涂覆活性剂对电弧综合作用力的影响。实验结果说明,涂覆在工件表面的活性剂在高能的等离子弧的作用下将形成复杂气氛,复杂的气氛导致焊接过程中的电弧动态特性及其电弧力产生改变,继而影响焊缝的形貌。     

Numerical simulation of variable polarity vertical-up plasma arc welding process

Three-dimensional transient governing equations were developed based on conservation laws of energy, momentum and mass. These equations described physical phenomena of convection in weld pool and heat transfer in workpiece during variable polarity vertical-up plasma arc welding process. Boundary conditions for the developed governing equations were given. Welding energy input for variable polarity vertical-up plasma arc welding process was quantitatively expressed. Free surface deformation of the keyhole molten pool was coupled into calculation. Effect of wire filling on the geometry of molten pool and weld reinforcement was considered in the simulation. Correlations of temperature and thermophysical properties for aluminum alloy 2219 were quantitatively established. A control volume based finite difference method was used to solve the discrete governing equations. Moreover, dynamic evolutions of geometrical profile, dimension and fluid flow for the molten pool and keyhole were simulated through the developed computational routines, which achieved transient solution of fluid flow field coupling with thermophysical properties, temperature field and weld pool free surface deformation. Besides, the effect of the workpiece thickness on the moments of keyhole formation and stable keyhole establishment was analyzed, and thermal cycles for the main welding stage were calculated. In addition, experiments via variable polarity vertical-up plasma arc welding technique were conducted, and the established models were experimentally verified through weld cross-section profiles.     

电子束焊接熔池周期性波动的数值模拟

为了更深入地探究电子束焊接过程中的机理问题,利用数值软件Fluent,对10mm厚的2219铝合金电子束焊接熔池进行三维瞬态模拟。分析电子束焊接进入准稳态后熔池中涡流的变化规律和产生原因,并结合电子束与匙孔壁面相互作用进行讨论。结果表明:电子束焊接进入准稳态后熔池呈周期性波动;根据液态金属流动情况可将焊接熔池分为3个区域,区域Ⅰ中的液态金属维持了熔池体积的稳定,区域Ⅱ中的涡流起到扩大熔池表面的作用,区域Ⅲ中的涡流促使匙孔坍塌;通过对电子束与匙孔壁面的耦合分析可知,电子束在匙孔壁面上并不是均匀分布的,这造成了匙孔底部具有一定的滞后性。     

单束与双束串行激光填丝焊特性对比

以铝合金为研究对象,研究了双束串行激光填丝焊不同能量比对焊缝成形及焊缝气孔率的影响,并与单束激光填丝焊工艺进行对比。进一步借助高速摄像机对双束串行激光填丝焊能量比R为20/80以及单束激光填丝焊的熔池、匙孔以及等离子体的变化进行对比分析,获得了双束串行激光填丝焊能量比R为20/80时焊缝气孔率降低的原因。结果表明,对于双束串行激光填丝焊,当能量比R为20/80时焊缝气孔率较低。与单束激光填丝焊相比,双束激光填丝焊能量比R为20/80的焊缝气孔率降低了38%,而且焊接过程中焊丝熔化后沿熔池边缘流入,可大幅降低对匙孔的冲击作用,匙孔始终处于张开状态,焊接过程中等离子体的形态波动相对较小,表明焊接过程的稳定性较好。     

等离子+缆式焊丝脉冲GMAW复合焊熔池流体行为研究

目的 研究等离子+缆式焊丝脉冲GMAW复合焊过程的熔池流体行为.方法 综合考虑传热学以及流体动力学,建立Fluent数值分析模型.使用双椭球–锥体热源模型代表等离子弧焊传热模型,用双椭球热源表征GMAW电弧传热并考虑熔滴传热,同时考虑熔池受到的电磁力、浮力、表面张力、等离子流力等作用力.基于Fluent软件,对复合焊过...     

Numerical simulation of fluid flow and temperature field in keyhole double‐sided arc welding process on stainless steel

Double‐sided arc welding process powered by a single supply is a type of novel high‐production process. In comparison with the conventional single‐sided arc welding, this process has remarkable advantages in enhancing penetration, minimizing distortion and improving welding production. In this paper, a three‐dimensional steady numerical model is developed for the heat transfer and fluid flow in plasma arc (PA)–gas tungsten arc (GTA) double‐sided keyhole welding process. The model considers the surface tension gradient, electromagnetic force and buoyancy force. A CCD camera is used to observe the size and shape of the keyhole and weld pool. The acquired images are analysed through image processing to obtain the surface diameters of the keyhole on the two sides. A double‐V‐shaped keyhole geometry is then proposed and its characteristic parameters are derived from the images and cross‐section of weld bead. In the numerical model, the keyhole cavum within the weld pool is treated as a whole quality, whose temperature is fixed at the boiling point of the workpiece material. The heat exchange between the keyhole and weld pool is treated as an interior boundary of the workpiece. Based on the numerical model, the distributions of the fluid flow and temperature field are calculated. A comparison of cross‐section of the weld bead with the experimental result shows that the numerical model's accuracy is reasonable. Copyright © 2005 John Wiley & Sons, Ltd.     

镁合金冷金属过渡熔池动态行为数值模拟

为研究冷金属过渡焊(CMT)的周期性能量输入及焊丝抽送行为对镁合金熔池动态行为的影响,在FLUENT软件中建立了焊丝-熔滴-熔池多相流数值分析模型。提出一种在流体体积法(VOF)多相流计算域中划分熔滴与熔池区域并判断其接触状态的方法,结合动网格技术实现自动响应的焊丝抽送,在熔池区域加载间歇性的热源、电弧力,采用镁合金CMT堆焊实验所得参数进行数值模拟。结果表明,在CMT能量输入周期的短路阶段,由于焊丝的回抽,熔池被向上提拉并在焊丝端部形成了液桥,内部液态金属在马兰戈尼力的作用下,由边缘流向中间,由下方流向上方,焊丝持续回抽至脱离熔池后,熔池受到液桥断裂的反作用力,液态金属快速向后方流动使熔池形状发生改变,可知焊丝回抽与马兰戈尼力是熔池动态行为的主导作用力,此外,焊缝熔深的模拟结果为0.53 mm,与实际成形焊缝的熔深存在3.47 %的误差,验证了模型的有效性。     

Solidification behaviour in plasma are welding

Melting and solidification behaviour in the deep penetrution welding process is different from that in conventional welding process in deep penetration processes there is keyhole formation and the full thickness of the plate receives the are heat input unlike conventional processes in which the heat input is received only by the surface nodes. In the present study, the thermal analysis of molten pool formation and solidification keyhole welding using plasma are welding has been done using the finite element method. The model accounts for the several phenomena associated with welding, like the distributed are heat input over the top surface and along the thickness, the temperature-dependent material properties. convection and radiation heat losses etc. The analysis is performed for different combinations of parameters. viz welding current and welding speed, which have the maximum influence on molten pool shape and solidification behaviour. The model has also been validated by conducting experimental measurement of thermal cycles experienced by the plate for different welding parameters. The weld pool dimensions. viz. the length and widlh are found to increase with inincreasing current and decereasing welding speed. Thermal cycles at locations close to the weld reach a higher value of temperature and the time for peak temperature is also less but at farther locations the peak temperature reached is lower and the time for peak temperature is higher. Details of the model, the experimental results obtained and the solidifications charateristics of the pool are discussed in this paper.     

Investigation on Cracking in the Surfacing Welding Layer of Ni_3Al Based Alloy

Investigation has been made into the causes of cracking in the Surfacing welding layer of Ni3Al based alloy by analysing both the liqu id-to-solid transformation in the molten pool and the distribution of thermal stress within the surfacing welding layer. The results show that cracking in the surfacing welding layer is directly related to the producing of eutectic phase β' (NiAl) in the interdendritic region and high thermal stress within the surfacing welding layer. When the process of electric arc surfacing welding is changed from along straight line to along" Z" pattern, cracking in the surfacing welding layer of Ni3Al based alloy is prevented due to being reduced of both the cooling rate of liquid in the molten pool and the moving speed of the heat source. Reducing the melting volume of the substrate material by lowering the output power of electric arc welding would make the content of iron atoms in the molten pool decrease. and this also can reduce the trend of the eutectic reaction in the interdendfitic region and is helpful to Suppress cracking in the surfacing welding layer.     

铝合金等离子弧焊穿孔熔池正面图象检测与处理

研制了一套窄带复合滤光图象传感系统，从铝合金等离子弧焊焊接工件正面检测到部分小孔溶池的清晰图象，采用Ｇａｕｓｓ滤波，Ｐｒｅｗｉｔ边缘检测和图象错位边缘检测等方法确提取了可视小花熔池的小孔宽度和面积等几何信息。