Effect of process parameters on the morphology of aluminum/copper alloy lap joints by red and blue hybrid laser welding

In order to overcome the problems of many pores,large deformation and unstable weld quality of traditional laser welded aluminumcopper alloy joints,a red-blue dual-beam laser source and a swinging laser were introduced for welding.T2 copper and 6063 aluminum thin plates were lap welded by coaxial dual-beam laser welding.The morphology of weld cross section was compared to explore the influence of process parameters on the formation of lap joints.The microstructure characteristics of the weld zone were observed and compared by optical microscope.The results show that the addition of laser beam swing can eliminate the internal pores of the weld.With the increase of the swing width,the weld depth decreases,and the weld width increases first and then decreases.The influence of welding speed on the weld cross section morphology is similar to that of swing width.With the increase of welding speed,the weld width increases first and then decreases,while the weld depth decreases all the time.This is because that the red laser is used as the main heat source to melt the base metals,with the increase of red laser power,the weld depth increases.As an auxiliary laser source,blue laser reduces the total energy consumption,consequently,the effective heat input increases and the spatter is restrained effectively.As a result,the increase of red laser power has an enhancement effect on the weld width and weld depth.When the swing width is 1.2 mm,the red laser power is 550 W,the blue laser power is 500 W,and the welding speed is 35 mm/s,the weld forming is the best.The lap joint of T2 copper and 6063 aluminum alloy thin plate can be connected stably with the hybrid of blue laser.The effect rules of laser beam swing on the weld formation were obtained,which improved the quality of the joints.

Synthetically quantitative evaluation function of characteristic parameters on CO_2 arc welding process

The statistical probability and their variation regularity of the measurable characteristic parameters in the CO 2 arc welding droplet short circuiting transfer process have been studied. The statistical analysis shows that the sensitivity of each characteristic parameter with regard to the variation of the short circuiting transfer process is different. The sensitivity of 4 kinds among these characteristic parameters is more intense than that of the short circuiting transfer frequency. In order to take account of the synthetic influence of these characteristic parameters, by means of the characteristic parameters synthetic value, a quantitative evaluation function is built up to describe and evaluate the short circuiting transfer process of CO 2 arc welding in real time. The testing shows that the evaluation function can give a suitable synthetic valuation for the short circuiting transfer process with a variety of welding variables.

Mechanism of laser welding of SiC reinforced LD2 aluminum metal matrix composite

In this paper the mechanism of SiC_P/LD2 aluminum matrix composites during laser welding was investigated. The emphasis was laid on the study of the distribution of aluminum carbides in whole welds. The joint can be divided into three regions both in depth and in width. The depth is divided into severe reaction region, partial reaction region, and no reaction region. In these regions, the extent of interfacial reaction varies gradually, the shape of reactants varies from long to fine. In width it can also be divided into severe reaction region, partial reaction region, and initial reaction region from the center of the weld to about the welding junction. In the initial reaction region, nucleation and growth of the reaction products on the surface of SiC particles can be observed by using TEM. The investigation showed that the quantity and size of SiC are relative to the temperature gradient in the molten pool.

Effect of pulsed laser process parameters on welding quality of automobile fuel injector

In this research, pulverization plate and base of a fuel injector in an automobile electronic-controlled engine was joined by pulsed laser welding. The different welding parameters were evaluated and effect of process parameters on joint characteristics was analyzed. The optimal process parameters were obtained as follows： welding current 120 A, welding speed 600 ram/rain, pulse duration 1.80 ms and pulse frequency 60 Hz. The microstructure of weld metal was investigated. Results show that the fusion zone is austenitic dendrite, the weld center is equiaxed grain, while the transition zone between fusion zone and weld center is mixed crystal with austenitic dendrite and equiaxed grain. The weld layered phenomenon was observed, and eddy caused by keyhole effect is the main reason for the formation of layered structure in molten pool.

Laser welding of AZ61 magnesium-based alloys Laser welding of AZ61 magnesium-based alloys

Laser welding of AZ61 magnesium alloys was carried out using a CO2 laser welding experimental system. The welding properties of AZ61 sheets with different thickness were investigated. The effect of processing parameters including laser power, welding speed and protection gas flow was researched. The results show that laser power and welding speed have large effect on the weld width and joint dimensions. Protection gas flow has relatively slight effect on the weld width. The property test of three typical joints indicates that microhardness and tensile strength in weld zone are higher than that of AZ61 base metal, Joints with good appearance and excellent mechanical properties can be produced using CO2 laser welding method. The microstructure with small grains in weld zone is believed to be respoasible for the excellent mechanical properties of AZ61 joints.

Improving pulsed laser weldability of duplex stainless steel to 5456 aluminum alloy via friction stir process reinforcing of aluminum by BNi-2 brazing alloy

Effects of laser pulse distance and reinforcing of 5456 aluminum alloy were investigated on laser weldability of Al alloy to duplex stainless steel (DSS) plates. The aluminum alloy plate was reinforced by nickel-base BNi-2 brazing powder via friction stir processing. The DSS plates were laser welded to the Al5456/BNi-2 composite and also to the Al5456 alloy plates. The welding zones were studied by scanning electron microscopy, X-ray diffractometry, micro-hardness and shear tests. The weld interface layer became thinner from 23 to 5 μm, as the laser pulse distance was increased from 0.2 to 0.5 mm. Reinforcing of the Al alloy modified the phases at interface layer from Al-Fe intermetallic compounds (IMCs) in the DSS/Al alloy weld, to Al-Ni-Fe IMCs in the DSS/Al composite one, since more nickel was injected in the weld pool by BNi-2 reinforcements. This led to a remarkable reduction in crack tendency of the welds and decreased the hardness of the interface layer from ~950 HV to ~600 HV. Shear strengths of the DSS/Al composite welds were significantly increased by ~150%, from 46 to 114 MPa, in comparison to the DSS/Al alloy ones.

Application of Nd:YAG Laser Welding to Implantable Neuro-Stimulator

It is difficult to weld the material and structure of implantable neuro-stimulator such as pure medical titanium and irregular outside shield by conventional arc welding methods.Currently there are few reports on the neuro stimulator sealing technology,and none of them have simultaneously considered the quality control methods.In order to develop the sealing procedure and quality control methods,an investigation of applying Nd：YAG laser welding to implantable neuro-stimulator components is carried out.Firstly,the automatic Nd：YAG laser welding system equipped with proper fixture configuration is introduced.A special fixture structure is illustrated and the key point for the device is to reduce the fit-up gap between the two shields.Then,a novel welding process technique is proposed to satisfy the engineering requirements.The optimized process parameters for titanium shell,feedthrough and fastener are provided and concluded by an orthogonal experiment.Finally,different quality control measures such as visual inspection,X-ray detecting and leakage testing,are presented on the final products.The results show that the Nd：YAG laser welding applied on the implanted neuro-stimulator under optimized parameters can prevent welding defects and improve the weld joints quality.Combination of various quality control methods will guarantee the sealing performance and mechanical properties of the products.It is confirmed that the processing procedure and quality methods can not only resolve the process technology on welding ultra-thin structure of medical device,but also provide the reference for other implantable device.

BT20钛合金CO_2激光焊接工艺

通过对BT2 0钛合金CO2 激光焊技术开展试验研究 ,对焊前清理、焊接过程中气体保护、离焦量、激光功率、焊接速度等工艺参数进行了优化选择 ,确定了合理的焊接工艺参数。

DOGAL 800DP镀锌高强钢数控CO_2激光焊接工艺参数的优化

采用正交方法优化试验方案,对DOGAL 800DP镀锌高强钢进行激光焊接试验,并对激光焊接试样进行了多种焊接质量的检测。结果表明:数控CO2激光焊接1.5 mm厚镀锌高强钢时,在试验条件下保证焊缝成形、强度和质量的优化工艺参数是以氮气作为保护气体,同轴气流量为3.0 m3.h-1,激光功率1 300 W,离焦量-0.4 mm,焊接速度0.80 m.min-1,侧吹气流与水平方向成40°夹角,侧吹气流量2.1 m3.h-1。

ZK60镁合金CO_2激光焊接头的缺陷及防止措施

以ZK60镁合金薄板为研究对象,采用CO2激光焊进行焊接试验,然后使用金相显微镜、扫描电镜和X射线衍射仪等分析测试手段,分析了ZK60镁合金CO2激光焊接接头中常见的焊接缺陷,并对其产生的主要原因和防止措施进行了探究.实验结果表明:ZK60镁合金CO2激光焊接接头中存在的主要缺陷是气孔和裂纹.在有些情况下还容易产生其它缺陷如夹杂、未熔合、未焊透、咬边等.但是只要选择正确的焊接规范和合适的工艺参数,是可以有效地避免或减少这些缺陷的.

CO_2电弧焊电流波形模糊逻辑控制

在CO2 焊波控法中 ,将燃弧分为两个恒流阶段 ,燃弧前期采用大电流控制可以改善焊缝成形 ,而在短路过渡前的燃弧后期用小电流恒流控制可以减少飞溅 .本研究以此工艺为基础 ,针对恒流控制系统的弧长恒定问题 ,提出了稳定燃弧前期电弧电压的波形模糊逻辑控制方法 ,设计了波形模糊逻辑控制器并进行了仿真研究 .通过试验优化了CO2 焊工艺参数 ,从而获得飞溅少。

高强镀锌钢的CO_2激光焊接研究

在CO2激光焊接加工中,影响高强镀锌钢板焊接质量的因素有很多,此处根据试验加工对相应因数进行了分析,并给出了一套可以有效控制焊接高强钢加工质量的工艺参数,从而确保高强镀锌钢的焊接质量。

锆4合金的CO_2激光焊接工艺研究

本文研究了锆４合金ＣＯ２激光焊接时的保护措施和适宜的激光焊接工艺参数．结果表明：试验确定的保护装置和工艺参数可以获得满意的锆合金激光焊接接头，其力学性能和母材相近。

铝合金CO_(2)激光-TIG电弧复合焊接试验研究

以LF6铝合金为材料,开展了CO2激光-TIG电弧复合焊接工艺试验研究。试验结果表明,与单激光或TIG电弧比较,激光-TIG复合焊接可以提高焊缝熔深,改善焊缝成形,降低气孔和下塌等焊接缺陷。在此基础上,进一步研究了不同工艺参数对焊缝成形的影响,探索了铝合金激光-TIG电弧复合焊接的可行性。

基于响应面法的HR-2抗氢钢电子束插接焊工艺参数优化

为解决HR-2抗氢钢电子束插接焊有效熔深不足、焊缝处开裂等问题,采用BBD设计试验方案,基于响应面法建立了HR-2抗氢钢电子束插接焊焊接工艺参数(聚焦电流、焊接速度、束流、倾斜角度)与预测响应值(有效熔深、接头抗剪承载力)之间的统计模型.根据有效熔深和接头抗剪承载力的要求优化焊接工艺参数,并通过优化电子束焊接工艺参数来预测电子束插接焊的有效熔深和接头抗剪承载力,实现焊缝截面形貌与接头强度的最佳组合.结果表明,模型拟合度较好,有效熔深预测值比实测值高1.17%,接头抗剪承载力预测值比实测值高2.63%,得到较优的焊接参数为:聚焦电流2.46 A,焊接速度10.00 mm/s,束流8.20 mA,倾斜角度11°.在该参数下的焊缝有效熔深1347.82μm,接头抗剪承载力13.525 kN.

Effects of Processing Parameters on Weld Geometries in Electron Beam Welding Based on Partial Correlation Analysis

Accelerating voltage,electron beam current,welding speed constitutes the main electron beam welding process parameters,while the penetration depth and depth-width ratio are two of the most important characteristic parameters of the weld geometries.However complex interactions exists between the five variables,so the analysis of a single process parameter on one of weld geometries is affected by the other process parameters,and the impact of these interference parameters should be excluded to find the real relationship between the variables where partial correlation analysis provides such a method.Effects of the accelerating voltage,electron beam current,welding speed of electron beam welding process parameters on weld geometries is analyzed by using partial correlation analysis.The priority order of adjustment of process parameters is obtained,namely:in order to obtain a larger depth-width ratio indicators,it should be taken firstly to increase the beam current and accelerating voltage,and then to raise the welding speed;in order to obtain greater penetration depth,it is preferred to increase the beam current,followed by increasing the accelerating voltage,and reducing the welding speed finally.

Remote Laser Welding with High Power Fiber Lasers

The introduction of the high power fiber laser with brilliant beam quality has enabled the rapid development of remote laser welding (RLW). This paper presents a theoretical review of remote laser welding. As a promising technology, RLW offers increased flexibility, high operational speed, and reduced cycle time to process a wide range of workpieces. This study presents the typical characteristics of RLW with high power fiber lasers. It also investigates the influence of process parameters such as laser power, welding speed, shielding gas supply, beam inclination and focal position on the weld seam quality.

H62黄铜与T2紫铜搭接激光焊接工艺和焊缝微观组织研究

黄铜和紫铜形成的异种金属复合结构可以兼顾黄铜的机械性能和紫铜的导热性能,因此在航空航天、汽车、制冷设备等领域经常需要将两者进行焊接。采用光纤激光器对H62黄铜与T2紫铜薄板搭接激光焊接进行试验。对比研究了激光功率、焊接速度等主要工艺参数对焊缝成形性能、力学性能的影响,获得具有良好外观的焊接接头。当热输入大于10^(5)J/mm时,焊接模式由激光热导焊转变为激光小孔深熔焊,熔深大幅升高,当激光功率为1800 W,焊接速度为13 mm/s时获得了最大深宽比为2.51。分析了焊接接头及界面处成分、组织的分布与演化,探究了组织和力学性能之间的关系。发现熔池流动以环形流动为主,形成了焊缝中心锌元素含量高于焊缝边缘的成分分布。提出熔池流动和成分偏析造成的成分不均匀是接头组织和性能不均匀的主要原因。焊缝中心硬度测试显示,在两材料界面附近存在较大的硬度梯度,发现较高的热输入可以促进两材料混合,降低界面处力学性能差异。

工业机器人CO_(2)气体保护焊焊接工艺研究

通过工业机器人CO_(2)气体保护焊在塔式起重机中角焊缝的焊接工艺的研究,分析不同焊接工艺参数下,对焊接结果的影响,发现焊缝中存在气孔、裂纹、飞溅等缺陷。根据文献查阅和相关试验,提出了相应的解决措施,并最终制定了合理的、能够指导生产的焊接工艺参数,参数结果可为生产提供指导性依据。

Processing parameter optimization of fiber laser beam welding using an ensemble of metamodels and MOABC

In fiber laser beam welding(LBW),the selection of optimal processing parameters is challenging and plays a key role in improving the bead geometry and welding quality.This study proposes a multi-objective optimization framework by combining an ensemble of metamodels(EMs)with the multi-objective artificial bee colony algorithm(MOABC)to identify the optimal welding parameters.An inverse proportional weighting method that considers the leave-one-out prediction error is presented to construct EM,which incorporates the competitive strengths of three metamodels.EM constructs the correlation between processing parameters(laser power,welding speed,and distance defocus)and bead geometries(bead width,depth of penetration,neck width,and neck depth)with average errors of 10.95%,7.04%,7.63%,and 8.62%,respectively.On the basis of EM,MOABC is employed to approximate the Pareto front,and verification experiments show that the relative errors are less than 14.67%.Furthermore,the main effect and the interaction effect of processing parameters on bead geometries are studied.Results demonstrate that the proposed EM-MOABC is effective in guiding actual fiber LBW applications.