1) stick electrode welding
焊条电焊
2) shielded metal arc welding
焊条电弧焊
1.
Discussion on safely using electricity in shielded metal arc welding process(3)——Measures to prevent electric shock accidents;
焊条电弧焊用电安全问题的探讨(三)——防止触电事故的措施
2.
Analysis on the Process and Cost of Shielded Metal Arc Welding and CO_2 Gas Shielded Welding
CO_2气体保护焊与焊条电弧焊工艺及成本分析
3.
Single-pass and multi-passes welded joints of 0Cr18Ni9/20 clad pipe were prepared by the use of shielded metal arc welding(SMAW) and E309L super-low carbon austenitic stainless steel electrode.
采用E309L型超低碳奥氏体不锈钢焊条的焊条电弧焊(SMAW,shieldedmetal arc welding)方法制备了0Cr18Ni9/20复合管单层焊和多层焊接头,并应用光学金相、能谱(EDS,energy dispersive spectrum)成分及线扫描、扫描电镜(SEM,scanning electronmicroscope)、X射线衍射以及显微硬度等方法对焊接接头进行了对比分析研究。
3) welding rod arc welding
焊条电弧焊
1.
This article introduces the experiment that contrasted the welding joint's performance and enameling capability among CO2 gas shielded welding, welding rod arc welding and submerged arc auto-welding, compares the welding cost between CO2 gas shielded welding and welding rod arc welding, analyzes the feasibility of applying CO2 gas shielded welding on enamel glass equipment.
本文对CO_2气体保护焊焊接接头与焊条电弧焊、埋弧自动焊焊接接头的性能、可涂搪性进行了对比试验,并对CO_2气体保护焊和焊条电弧焊两种焊接方法的焊接费用作了比较,进行了搪玻璃设备上应用CO_2气体保护捍的可行性分析。
4) ectrode for arc welding
电焊条;电弧焊条
5) E4303
E4303电焊条
1.
The Application of Sepiolit in E4303;
海泡石在E4303电焊条中的应用
6) electrode
[英][ɪ'lektrəʊd] [美][ɪ'lɛktrod]
电焊条
1.
Granularity effect to E4303 electrodes performance;
颗粒度对E4303电焊条性能影响
2.
According to the research on electrode chemical components and mechanical property,the rule of the relationship between nerve cell number and net prediction has been drawn.
研究了基于电焊条化学成分与熔敷金属抗拉强度的关系;讨论了网络隐含层神经元个数对预报结果的影响及其变化规律。
3.
The new tape electrode, developed based on the theory of the production of wire-rope and electrode-coated, can replace the short electrode ,thus achieving the automatic and semi-automatic production of the welding rod.
根据多股绞合钢丝绳生产原理和焊条涂敷原理研制出药皮涂层连续焊接结构钢电焊条。
补充资料:旋转电弧焊
利用外加磁场驱动电弧沿工件旋转加热,然后顶锻完成工件焊接的方法(见图)。旋转电弧焊主要用于管件的焊接,焊接时把待焊管件置于磁场中,并用电极夹紧后通电,由激磁线圈所产生的径向磁场与电流的相互作用,使电弧沿管壁圆周旋转。均匀加热管端产生熔化金属薄层,然后快速加压,挤出熔化金属,便形成焊接接头。旋转电弧焊是1959年苏联研究成功的,但进行这种焊接所用的焊机直到70年代才出现。焊机包括电源、高频引弧或辅助电极引弧装置、夹具(电极)、激磁线圈和加压机构(液压、机械或手动加压)等部分。影响焊接质量的主要工艺参数有电功率、磁场强度、管子装配间隙、电弧旋转速度和时间、顶锻力和顶锻速度。旋转电弧焊的生产效率较高,与闪光对焊(见电阻焊)和摩擦焊相比,设备体积、耗电量、坯料损耗、焊缝毛刺等都小得多。它已可焊接直径达 200多毫米,壁厚达几毫米的管子,多用于普通碳钢的管与管、管与管板的焊接,如煤气管线、水管、电缆套管等,尤其适用于在工地进行安装焊接。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条