Overview For welding of similar composition (316 & 316L & in some cases 304 & 304L) as well as joining mild & low alloy. The low carbon content ensures immunity from carbide precipitation & intergranular corrosion when welding low carbon stainless steel grades & higher silicon levels offer improved arc stability, bead shape & edge wetting. 316LSi would be considered the most widely used stainless steel MIG wire. Features Precision Layer wound wire Low Carbon content reduces the risk of Carbide precipitation. Easy starting and Smooth feeding wire Higher Silicon content improves weld edge wetting Welding Positions All positions Specifications Food processing equipment Water processing filtration plants General stainless steel fabrications
Overview For welding of similar composition (316 & 316L & in some cases 304 & 304L) as well as joining mild & low alloy. The low carbon content ensures immunity from carbide precipitation & intergranular corrosion when welding low carbon stainless steel grades & higher silicon levels offer improved arc stability, bead shape & edge wetting. 316LSi would be considered the most widely used stainless steel MIG wire. Features Precision Layer wound wire Low Carbon content reduces the risk of Carbide precipitation. Easy starting and Smooth feeding wire Higher Silicon content improves weld edge wetting Welding Positions All positions Specifications Food processing equipment Water processing filtration plants General stainless steel fabrications
Overview For welding of similar composition (316 & 316L & in some cases 304 & 304L) as well as joining mild & low alloy. The low carbon content ensures immunity from carbide precipitation & intergranular corrosion when welding low carbon stainless steel grades & higher silicon levels offer improved arc stability, bead shape & edge wetting. 316LSi would be considered the most widely used stainless steel MIG wire. Features Precision Layer wound wire Low Carbon content reduces the risk of Carbide precipitation. Easy starting and Smooth feeding wire Higher Silicon content improves weld edge wetting Welding Positions All positions Specifications Food processing equipment Water processing filtration plants General stainless steel fabrications
Overview For welding of similar composition (316 & 316L & in some cases 304 & 304L) as well as joining mild & low alloy. The low carbon content ensures immunity from carbide precipitation & intergranular corrosion when welding low carbon stainless steel grades & higher silicon levels offer improved arc stability, bead shape & edge wetting. 316LSi would be considered the most widely used stainless steel MIG wire. Features Precision Layer wound wire Low Carbon content reduces the risk of Carbide precipitation. Easy starting and Smooth feeding wire Higher Silicon content improves weld edge wetting Welding Positions All positions Specifications Food processing equipment Water processing filtration plants General stainless steel fabrications
Size
Bossweld 0.8mm 5.0kg Silicon Bronze MIG Wire
$79.00 - $339.50
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316LSi Stainless MIG Wire, 5.0kg / 200mm / 0.9mm
$149.95 - $349.00
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Bossweld 1.2mm 15kg Stainless Steel 308LSI MIG Wire
$313.50 - $473.00
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Bossweld 0.9mm 15kg Stainless Steel 308LSI MIG Wire
$347.68 - $924.95
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| Spool Weight (kg) | 1 |
| Spool Weight (kg) | 1 |
