日本神钢KOBELCO NO65G氩弧焊丝ER70S-2进口焊丝
日本神钢KOBELCO NO65G氩弧焊丝ER70S-2进口焊丝
产品价格:¥电议(人民币)
  • 规格:2.4
  • 发货地:本地至全国
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  • 最小起订量:1公斤
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    会员级别:试用会员
    认证类型:企业认证
    企业证件:通过认证

    商铺名称:天津市海焊科技有限公司

    联系人:李诚(先生)

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    固定电话:

    企业邮箱:1366451476@qq.com

    联系地址:天津市武清开发区福源道18号502-78

    邮编:301700

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    商品详情

      日本神钢KOBELCO NO65G氩弧焊丝ER70S-2进口焊丝

      NO65G TIG rod, equivalent to AWS A5.18 ER70S-2, contains less C, Si and Mn contents than TG-S50 or TG-S51T; instead, Al, Ti and Zr are specially added. These elements help to decrease the amount of oxygen in the molten pool, allowing NO65G to provide a weld metal of relatively high cleanness. On the other hand, it is a little inferior to TG-S50 or TG-S51T in terms of fluidity of molten metal, because of which its surface tension increases while the oxygen content in the molten metal is decreased.

      Because Al, Ti or Zr is an element with high oxygen affinity, slag can be generated on the bead surface after a part of the element combines with oxygen in the molten metal during welding. Users are therefore advised to beware of weld defects, such as poor bead appearance or slag inclusion, caused by the slag.

      Each chemical element in NO65G rod is strictly controlled to maintain a narrow range within the AWS A5.18 ER70S-2 specification so that it can meet the tough requirements set out by Japanese clients for mechanical properties in critical structural projects.

      Table 8: Typical chemistry of weld metal (mass%)天津海焊
      C Si Mn P S Cu Al Ti Zr
      0.04 0.50 1.20 0.007 0.012 0.22 0.06 0.05 0.02
      Table 9: Typical mechanical properties of weld metal
        Tensile test at RT Absorbed energy (J)
      YS (MPa) TS (MPa) EI (%) -40°C -30°C -20°C
      As-welded 584 635 29 Av 165 Av 200 Av 215
      625°C × 8hr 545 615 30 Av 138 Av 160 Av 175

      Table 8, Table 9 and Figure 5 show the typical chemistry of NO65G weld metal, the typical mechanical properties in as-welded and PWHT (625°C×8 hr) conditions and the absorbed energies in relat ion to the tes t temperatures, respectively.

      Figure 5: Impact properties of weld metal

      Figure 5: Impact properties of weld metal

      Figures 6 and 7 show face side bead appearance after root and second passes and back bead appearance after root-pass welding in 1G and 3G (uphill) positions by NO65G (2.4mm dia.), respectively. Figures 8 and 9 exhibit macro-structures of root-pass and second-pass welding in 1G and 3G (uphill) positions, respectively. The groove configuration was of single 60°V, with a root gap of 3.0-3.5mm. The welding conditions were 110A-12V for root-pass without back-shielding and 160A-13V for second pass welding, respectively.

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