1) CO_2 arc welding
CO2气体保护焊
1.
The effects of unbalance factor B controlled by nitride forming elements Al,Ti etc on the impact toghness of weld metal by CO_2 arc welding with flux cored wire were studied.
研究了由氮化物形成元素Al,Ti等控制的不平衡因子B对低合金药芯焊丝CO2气体保护焊缝金属韧度的作用。
2.
The short circuiting transfer pulses in the CO_2 arc welding have a great interference to the signals processing of the arc sensor.
CO2气体保护焊的短路过渡脉冲对电弧传感器信号处理存在较大的干扰。
3.
The influence of activating flux on appearance of welds and spatter in CO_2 arc welding with self-made activating welding rod was investigated.
使用自制的活性焊丝,研究了活性剂对CO2气体保护焊焊缝成形及飞溅的影响。
2) CO2 gas shielded arc welding
CO2气体保护焊
1.
Combining with the!common types of welding in the ship-repairing enterprises,the author compared the CO2 gas shielded arc welding with the manual arc welding by practical examples to expound the welding technology of CO2 gas shielded arc welding.
通过CO2气体保护焊和焊条电弧焊的实例对比,结合船舶修造企业中常见的焊接接头类型,阐述了CO2气体保护焊的焊接工艺。
2.
It introduces the droplet transition format of the CO2 gas shielded arc welding,discusses the reasons principle of generating sputtering,and brings forward different sputtering control measures by the different reasons of sputtering in the different droplet transition format,which will solve the sputtering problem in the CO2 welding and generalize this technology.
详细地介绍了CO2气体保护焊的熔滴过渡形式,探讨了飞溅产生的原因机理,根据不同熔滴过渡形式下飞溅的成因提出了不同的飞溅控制措施,以解决CO2焊的飞溅问题,从而推广CO2气体保护焊接工艺。
3.
CO2 gas shielded arc welding is widely used in production,but the spatter produced in the weld process badly affects the quality of weld.
CO2气体保护焊是广泛应用在生产中的焊接方法,但因为焊接时飞溅过大影响了焊接质量。
3) CO2 arc welding
CO2气体保护焊
1.
In order to detect CO2 arc welding seam,a new image segmentation method based on transition region is presented.
利用过渡区图像分割技术实现CO2气体保护焊焊缝的识别。
2.
The advantages of CO2 arc welding of girth steel pipe in the concrete-filled steel tube arch bridge were introduced.
介绍了CO2气体保护焊在钢管混凝土拱桥上钢管环缝焊接应用的优势,用实例说明了采用CO2气体保护焊后,生产效率有了明显的提高,同时降低了工人的劳动强度。
3.
CO2 arc welding is a widely used welding method, which has advantages of highefficiency, low energy consumption, low hydrogen, insensitive to rust.
CO2气体保护焊具有高效节能、低氢、对锈不敏感等优点,已成为一种广泛应用的焊接方法,尤其是采用细焊丝的短路过渡方式进行薄板焊接和全位置焊接更是得到了越来越普遍的应用,这促使人们对它的熔滴过渡的本质和规律的研究不断深入。
4) CO 2 arc welding
CO2气体保护焊
1.
By taking example of wire feeder of CO 2 arc welding machine manufactured by Tangshan Matsushita Co.
以唐山松下CO2气体保护焊送丝装置为例,详细介绍了送丝装置的结构和功能,送丝装置连接方法,并介绍了送丝电机的选用、调速电路的采用、送丝装置的维护和保养。
5) CO2 welding
CO2气体保护焊
1.
This article introduces a patch welding technigue of CO2 welding without narrow gap submerged arc welding machine.
阐述了在没有窄间隙埋弧焊机的情况下,应用CO2气体保护焊进行拼焊的工艺。
2.
In this paper, a digital welding power source based on DSP(digital signal processor) has been developed, which is designed for CO2 welding.
根据CO2气体保护焊的特点对电源的输出特性采用了分时控制及PID控制策略,建立了系统的数学模型,并利用MATLAB软件的Simulink仿真库对控制系统进行了系统仿真,确定了PID的最佳控制参数。
6) CO 2 gas-shielded welding machine
CO2气体保护焊机
1.
This paper introduces notice of installation,usage and maintenance of CO 2 gas-shielded welding machine.
介绍了焊工在CO2气体保护焊机的安装、使用、维护保养及维修中的注意事项。
补充资料:二氧化碳气体保护焊
二氧化碳气体保护焊
CO_(2) welding
eryanghuatanq(tlboohu han二氧化碳气体保护焊(CO。welding)二氧化碳气体保护焊是以二氧化碳作为保护介质、以连续送进的焊丝为电极的熔化极气体保护电弧焊焊接方法。二氧化碳焊接设备包括电源、焊枪、CO:气体源和焊丝驱动机构。 二氧化碳气体保护焊具有成本低、抗氢气孔能力强、适合薄板焊接、易进行全位置焊等优点,广泛应用于低碳钢和低合金钢等黑色金属材料的焊接。它的主要缺点是焊接过程中产生金属飞溅。 二氧化碳气体保护焊的焊丝设计、制造和使用原则除与MIG焊有相同之处外,还对焊丝的化学成分有特殊要求:焊丝必须有足够数量的脱氧元素;焊丝的含碳量要低,一般要求C<。·11%,这是由于C02气体具有氧化性的缘故。 (田志凌)
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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