Effect of arc physics on developing CO_2 arc welding

The mechanisms of weld formation, spatter and projected transfer in CO2 arc welding are revealed based on the experiment and study of the arc physics. The views are beneficial to develop CO2 arc welding technology.

Comparison of mechanical properties in welded joint for CO_2 arc welding by using the micro－shear test and impact test

A micro shear testing method which can suit to measure the mechanical properties of heterogeneous materials is introduced, and the properties in each zone of welded joint for CO2 arc welding can be evaluated by using this method in this paper. Moreover, these results are compared with those results of Charpy V-notch impact test and their correlation is discussed.

The alternate wire-feed control in the automatic CO_2 arc welding

In the automatic CO_2 arc welding, the alteration of the vertical distance between the welding torch and the workpiece has a strong effect on the welding parameters such as welding current and voltage, with the result that the appearance and quality of weld are not steady. To weaken the influence of the distance alteration, a method is put forward in the paper. The method is that the alternate wire-feed control is used for compensating the welding current. On the basis of theoretical analysis, a static numerical model for alternate wire-feed control is established. The experiments show that the model-based regulation of the wire feed rate can compensate the welding current and ensure the appearance of weld. When the alteration of vertical distance between the torch and the workpiece is greater, not only is the wire feed rate regulated, but the output voltage of the power source is adjusted to ensure the appearance and quality of weld.

The Influence of Longitudinal Magnetic Field on the CO_2 Arc Shape

The COarc welding was carried out under a longitudinal magnetic field,and the arc shape has been studied by using a high-speed camera.From the camera images,we know that under the action of the longitudinal magnetic field,the upper end of the arc will constrict and the lower end of the arc will expand.It would become a bell-type shape and rotate at a highspeed in the optimum range of magnetic field parameters.The arc shape was simulated using a mathematical model,which was established based on experiment data and theoretical knowledge,and mechanism analysis has been carried out regarding the effect of longitudinal magnetic field on COwelding arcs.

新型智能控制技术在CO_2焊电源系统中的应用

CO_2焊是一种高效、节能、低成本的焊接方法.本文综述性的介绍了近几年来国内外研究机构在CO_2焊电源系统中进行智能化控制研究等方面的一些工作.

NBC-400型CO_2气体保护焊机的数控技术

针对抽头式ＣＯ２ 气体保护焊机，设计了单片机控制系统，论述了这种控制系统的组成和工作原理．该系统实现了焊接规范参数的数字控制．试验结果表明：采用实心和药芯焊丝焊接时，规范参数稳定，电压偏差平均值不大于１ Ｖ，规范调节灵活。

焊装车身CO_(2)焊接工艺对涂胶烧蚀的影响分析

利用钣金试板施加CO_(2)焊接及车身用胶涂敷工艺,研究胶到CO_(2)焊道距离远近对胶烧蚀的影响。结果表明:涂胶到CO_(2)焊距离对胶烧蚀影响显著,随着涂胶到CO_(2)焊距离的增大,车身用胶烧蚀情况逐渐减弱,当涂胶压覆后的胶边缘到CO_(2)焊距离大于30mm时,车身用胶未出现烧蚀情况。

基于ZigBee的逆变CO_(2)焊机参数遥控与群控系统设计

逆变CO_(2)焊机主要由逆变焊接电源、送丝机、遥控盒、气管和焊枪等组成,逆变焊接电源和送丝机通过6芯控制电缆连接,采用有线载波方式实现焊接参数的远程遥控。随着物联网技术的发展,逐步地构建ZigBee无线网络,实现逆变CO_(2)焊机参数遥控与群控系统,完成逆变CO_(2)焊接电源节点、送丝机节点、路由节点、协调器节点等软硬件设计以及Android应用程序的设计。试验结果表明:本文提出的系统能满足逆变CO_(2)焊机实际的控制要求,达到了参数遥控与群控的目标。

Q390A钢焊接接头腐蚀疲劳性能测试研究

采用CO_(2)气体保护焊工艺和ER50-6焊丝焊接Q390A钢,并对其进行焊接接头腐蚀疲劳性能测试。通过分析S-N曲线及疲劳断口SEM可知,腐蚀时间的增加会降低焊接接头疲劳极限值,60天加速腐蚀下焊接接头腐蚀坑面积和深度均较大;在承载相同动态应力下,加速腐蚀时间越长、断口裂纹越多,裂纹方向越趋于多样化,腐蚀疲劳裂纹形成速度越快;高腐蚀介质浓度和低pH值也会使腐蚀疲劳强度降低,但在相同测试时间中pH值对疲劳程度影响较小。

CO_(2)气体保护焊短路过渡电弧点焊对接薄板技术

:分析了CO2 气体保护焊短路过渡电弧点焊过程及特点 ,利用短路过渡电弧作用小的特点可进行薄板的点焊对接。点焊时 ,在短路之前使焊丝端部预先熔化 ,引弧后使焊丝熔化速度大于送丝速度 。

吸烟焊枪在药芯焊丝CO_(2)气保焊中的作用

采用吸烟焊枪进行药芯焊丝CO_(2)气保焊,通过记录烟尘扩散形态和焊接电流电压变化,采用高速摄像分析熔滴过渡过程,以及对比焊缝表面成形和采用X射线探伤揭示焊缝缺陷,并与未吸烟时对比,研究了不同吸烟功率和焊枪倾角下吸烟焊枪的吸烟行为及其对焊接过程和焊接质量的影响.结果表明:焊接烟尘被有效吸入吸烟焊枪,其烟尘扩散形态整体呈锥形,并随吸烟功率的增加,其气流挺度增加,吸尘效果增强.熔滴过渡仍表现为大滴排斥过渡,吸烟只是使熔滴过渡频率稍有增加.采用不同功率以及焊枪倾角,均能得到表面成形良好和无缺陷的焊缝.

基于气泡浮出速度理论的CO_(2)气体保护焊焊缝中气孔倾向探讨

CO_(2)气体保护焊焊缝中气孔类型可以归纳为两大类(冶金反应型和析出型),气孔的性质分别为CO气孔、氢气孔及氮气孔。气孔的形成由气泡生核、长大、逸出三个阶段组成。CO_(2)气体保护焊对气孔的敏感性是该工艺方法冶金特性所决定的。在工艺影响因素中,对气孔倾向影响较大的主要是焊接电流、电弧电压、气体流量、电源极性及焊接速度。“焊接飞溅小与气孔倾向大”的不协调关系,与熔滴过渡形态及熔滴携带气体行为相关。严格控制焊材成分、母材成分及坡口清洁度是控制焊缝中气孔的必要条件,而采用正确的工艺参数、辅助工艺及操作技术则是控制气孔的充分条件。

汽车后桥焊接工艺及设备

介绍了汽车后桥壳装焊线,桥壳整体成形的焊接工艺与特点.依据后桥壳关键焊缝的成形特点及工艺要求,选择了不同的自动焊接设备,并对各自动焊设备构成、焊接原理及焊接工艺参数的确定给予较详尽叙述.

Q235钢表面CO_(2)堆焊药芯焊丝组织与性能研究

为提高Q235普通碳素结构钢的耐磨性能和耐腐蚀性能,采用CO_(2)气体保护焊在其表面堆焊药芯焊丝,利用蔡司高级金相显微镜、显微硬度测试仪、摩擦磨损试验机和电化学工作站等分析测试手段,研究不同焊接电流下的堆焊层的宏观形貌、显微组织、显微硬度、摩擦磨损性及耐腐蚀性。测试结果表明,当焊接电流为200 A时,堆焊层组织均匀,碳化物均匀弥散分布在组织内部,其显微硬度最高为500 HV,耐磨性能最好,磨损失重量为26 mg,磨损机理为磨粒磨损;当焊接电流为230 A时,热输入量最高,合金元素固溶于奥氏体基体的量增多,使其稳定性增加,从而提高了耐腐蚀性。

大中型原油储罐的底板弧焊机器人CO_(2)自动焊接工艺开发与应用

针对日益增长的大中型原油储罐的底板焊接智能化需求,提出一种弧焊机器人CO_(2)自动焊接方法,通过合理的焊接方法、焊接顺序、焊接工艺参数及防变形措施,采用不开坡口单面焊双面成形的焊接工艺,得到的焊缝成形较好,试样焊缝区拉伸试验、弯曲试验、冲击试验结果均满足要求。无损检测结果显示试样焊缝达Ⅱ级以上,为合格。试样力学性能试验表明所选焊接方法及焊接工艺参数能满足大中型原油储罐的Q235底板焊接需要,焊缝外观和内部质量检验合格。弧焊机器人工作站的应用极大改善了原油储罐生产劳动条件,降低了工人的技术操作难度和劳动强度,提高了大中型原油储罐底板的焊接效率。

Joining and machining of(ZrB2-SiC)and(Cf-SiC)based composites

Filler materials of(ZrB_2-SiC-B_4C-YAG) composite were developed for gas tungsten arc welding(GTAW) of the ZrB_2-SiC and Cf-SiC based composites to themselves and to each other. Reaction with filler material,porosity and cracks were not observed at weld interfaces of all the joints. Penetration of filler material in to voids and pores existing in the Cf-SiC composites was observed. Average shear strength of 25.7 MPa was achieved for joints of Cf-SiC composites. By incorporation of Cf-SiC(CVD) ground short fibre reinforcement the(ZrB_2-SiC-B_4C-YAG) composite was machinable with tungsten carbide tool. The joint and machined composites were resistance to oxidation and thermal shock when exposed to the oxy-propane flame at 2300℃ for 300s. The combination of(ZrB_2-SiC-B_4C-YAG) and Cf-SiC based composites can be used for making parts like thermal protection system or nozzles for high temperature applications.

用于带式输送机机身件的自动化焊接工作站研发

根据带式输送机机身件结构特点,在借鉴、吸收、转化自动化焊接技术的基础上,改变生产工艺,引进弧焊、搬运机器臂,设计研发自动化焊接控制系统,并设计新型焊接夹具、装卡定位等,与其自动化控制运动系统融合应用,实现对带式输送机机身件的高效率、高品质、低成本的批量化规模化焊接作业。实践应用表明,该焊接工作站不受焊接产品限制、共用性强,可根据所焊接产品对应切换所需工艺参数、工装夹具,焊接过程中工件变形量小,成本低,焊接效率、焊接质量及产品一致性均得到提高。

基于CO_(2)潜弧焊工艺的Q690高强钢接头强韧性研究

为提高大工作阻力液压支架结构件的焊接生产效率,引进CO_(2)潜弧焊高效焊接工艺用于焊接Q690高强钢,研究了CO_(2)潜弧焊Q690高强钢焊接接头的强韧性匹配。结果表明:焊接接头的抗拉强度可以达到784 MPa,实现等强匹配,但热影响区有明显的软化现象;-20℃条件下,焊缝和热影响区的冲击吸收功均合格,其中最低值出现在熔合线附近;在R=3δ的条件下进行大角度侧弯,焊接接头仍可以保持完好,具有良好的塑性。

CO_2角焊中手工与角焊机作业方式的对比研究

利用工作研究的技术和方法对船厂焊接操作中常用的两种CO2角焊工作方式进行了研究,建立了标准化的操作程序,并为两种工作方式建立了评价指标及评价函数,从而得出适用于两种作业方式的选择条件,为合理选择手工焊作业与角焊机作业,提高焊接作业生产效率提供了依据。

CO_(2)气体保护焊参数与焊接背面成形质量相关性回归方程的研究

在实际应用中,CO_(2)气体保护焊焊接质量受到焊接速度、焊接电流、焊接功率等许多因素的影响。背面成形高度是衡量焊接背面成形质量的一个重要指标,它影响到焊缝的整体外观和内在性能。采用皮尔逊相关系数(r)变量之间线性相关程度的统计方法分析CO_(2)气体保护焊焊接参数与焊接背面成形的相关性,通过试验获取焊接参数与背面成形高度测量数据,并运用Minitab软件对两者进行相关性分析,筛选与背面成形高度有相关性的焊接参数,再对两者进行回归分析,拟合回归模型方程,并对回归模型方程进行方差分析和残差分析,得出焊接背面成形高度与电弧电压、焊丝直径的回归方程。