Magstrong
MAGSTRONG W700QL 2 - 5 2 - 4 1 - 3 150* 2** 0 ± 2 ± 1 ± 0.2 8 - 15 σ МПа 0,2, ММА MAG / MIG FCAW TIG 400 500 600 700 EN ISO 14341 G 46 EN ISO 14341 G 42 EN ISO 636 W 46 EN ISO 636 W 42 EN ISO 16834 G 55 EN ISO 14341 G 50 EN ISO 16834 W 55 EN ISO 636 W 50 EN ISO 16834 G 69 EN ISO 16834 G 62 EN ISO 16834 W 69 EN ISO 16834 W 62 о 75 С WELDING CUTTING BENDING Distance from the boundary of cut, mm Hardness in the heat affected zone ** when plasma cutting mm Plasma cutting Water jet cutting Gas cutting Cutting method Cutting width Accuracy Heat affected zone (allowance value) * data obtained under laboratory conditions ** data obtained when cutting steel with a thickness of 12 mm min R/h Longitudinal Transversal Rolling direction h, mm Minimum when bending to an angle of 90° with guaranteed no cracks — R h P = 2 1,6 · B · h . σ B V Bending force Heating zone Recommended temperature 75 mm from weld seam Rate of energy input The amount of energy input should not exceed Q : max Product thickness, mm Q , J/mm max Heat affected zone Distance from weld seam, mm Specified hardness MIG-welding MMA-welding TIG-welding EN ISO 17632 T 42 EN ISO 17632 T 46 EN ISO 17632 T 50 EN ISO 18276 T 55 EN ISO 18276 T 62 EN ISO 18276 T 69 EN ISO 18275 E 69 EN ISO 18275 E 62 EN ISO 18275 E 55 EN ISO 2560 E 50 EN ISO 2560 E 46 EN ISO 2560 E 42 Welding materials Argon-arc welding with non-consumable electrode Semi-automatic flux-cored welding Semi-automatic gas shielded solid wire welding Electric arc covered-electrode welding , Pa U I V TIG MIG/MAG MMA k=0.6 k=0.8 k=0.8 k - arc efficiency - voltage, V - current, А - welding speed, mm/sec Q = k · U · I V RECOMMENDATIONS FOR PROCESSING Preheating (Recommended for thicknesses greater than 20 mm)
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