Consumeables Catalog - Lincoln Electric
Consumeables Catalog - Lincoln Electric Consumeables Catalog - Lincoln Electric
FLUX-CORED SELF-SHIELDED (FCAW-S) WIRE Innershield ® Low Alloy, All Position • AWS E71T8-K2 Key Features A good choice for weathering steels Handles poor fit-up in the vertical up position Produces a nickel alloyed weld deposit (1.0-2.0%) Capable of meeting H8 diffusible hydrogen requirements Welding Positions All MECHANICAL PROPERTIES (1) – As Required per AWS A5.29/A5.29M Yield Strength (2) MPa (ksi) 102 ı THE LINCOLN ELECTRIC COMPANY -203 Ni C Plus-H NR® Typical Applications Offshore welding applications Roundabout groove welds on heavy wall tubular construction Structural fabrication General plate fabrication including bridges Hull plate and stiffener welding on ships and barges Conformances AWS A5.29/A5.29M: ASME SFA-5.29: DIAMETERS / PACKAGING Diameter 14 lb (6.4 kg) Coil in (mm) 56 lb (25.4 kg) Hermetically Sealed Pail 5/64 (2.0) ED033040 Tensile Strength MPa (ksi) Elongation % Charpy V-Notch J (ft•lbf) @ -29°C (-20°F) Requirements (4) - AWS E71T8-K2 400 (58) min. 480-620 (70-90) 20 min. 27 (20) min. Typical Results (3) 435-520 (63-76) 530-600 (77-87) 25-30 98-161 DEPOSIT COMPOSITION (1) – As Required per AWS A5.29/A5.29M %C %Mn %Si %S %P %Ni Requirements - AWS E71T8-K2 0.15 max. 0.50-1.75 0.80 max. 0.03 max. 0.03 max. 1.00-2.00 Typical Results (3, 4) 0.04-0.07 0.74-0.85 0.06-0.09 ≤0.01 ≤0.01 1.00-1.21 %Cr %Mo %V %Al E71T8-K2 E71T8-K2 Diffusible Hydrogen (mL/100g weld deposit) Requirements - AWS E71T8-K2 0.15 max 0.35 max 0.05 max 1.8 max. Not Specified Typical Results (3, 4) 0.09-0.13 0.01-0.05
Innershield ® MECHANICAL PROPERTIES (1) – As Required per AWS A5.29/A5.29M Yield Strength (2) MPa (ksi) Tensile Strength MPa (ksi) Elongation % Charpy V-Notch J (ft•lbf) @-40°C (-40°F) Requirements (4) - AWS E71T8-Ni2-JH8 400 (58) min. 480-655 (70-90) 20 min. 27 (20) min. Typical Results (3) 440 (63) 520 (76) 28 210-480 (158-360) DEPOSIT COMPOSITION (1) – As Required per AWS A5.29/A5.29M %C %Mn %Ni %Si Requirements - AWS E71T8-Ni2-JH8 0.12 max. 1.50 max. 1.75-2.75 0.80 max. Typical Results (3,4) 0.01 0.76 1.8 0.13 %S %P %Al FLUX-CORED SELF-SHIELDED (FCAW-S) WIRE -440Ni2 5 NR®- AWS E71T8-Ni2-JH8 • Low Alloy, All Position Typical Applications Offshore Designed to provide optimal weldability in Welding Positions All narrow TKY joints and poor fit up conditions Expect fast travel speeds and a flat bead face when using vertical-up or vertical-down welding techniques Low temperature impact toughness, meets ABS 4YSA and AWS J classification Meets H8 diffusible hydrogen requirements over a range of humidity levels ProTech ® Key Features Conformances AWS 5.29/A5.29M: E71T8-Ni2-JH8 ASME SFA-5.29 ABS DNV LR E71T8-Ni2-JH8 4YSAH10 IV YMS H10 4YS H10 hermetically sealed packaging DIAMETERS / PACKAGING Diameter 14 lb (6.4 kg) Coil 14 lb (6.4 kg) Coil 56 lb (25.4 kg) Hermetically Sealed Pail 56 lb (25.4 kg) Hermetically Sealed Pail Q2 ® mm (in) Lot Tested 2.0 (5/64) ED033627 ED033627 Diffusible Hydrogen (mL/100g weld deposit) Requirements - AWS E71T8-Ni2-JH8 0.030 max. 0.030 max. 1.8 max. 8.0 max. Typical Results (3,4) ≤0.010 ≤0.010 1.1 5-8 TYPICAL OPERATING PROCEDURES Diameter, CTWD Wire Feed Speed Voltage Approx. Current Melt-Off Rate Deposition Rate Efficiency Polarity mm (in) m/min (in/min) (volts) (amps) kg/hr (lb/hr) kg/hr (lb/hr) (%) 1.8 (70) 16-17 205 1.9 (4.2) 1.5 (3.2) 76 2.0 (80) 17-18 225 2.2 (4.7) 1.6 (3.6) 77 2.0 mm (5/64 in), 25 (1) 2.3 (90) 18-19 240 2.4 (5.3) 1.9 (4.2) 78 DC- 2.5 (100) 19-20 260 2.7 (5.9) 2.1 (4.7) 79 2.8 (110) 20-21 260 3.0 (6.5) 2.4 (5.2) 80 3.0 (120) 20-21 295 3.2 (7.1) 2.5 (5.6) 79 (1) Typical all weld metal. (2) Measured with 0.2% offset. (3) See test results disclaimer on pg. 16. (4) The strength and elongation properties reported were obtained from a 2.8 mm (0.505 in) tensile specimen artificially aged at 104°C (220°F) for 48 hours, as permitted by AWS A5.20-05. A naturally aged tensile specimen may take months to achieve the specified properties. See AWS A5.20-05, paragraph A8.3. The time required for the natural aging of weld deposits is dependent upon ambient conditions, weldment geometry, the metallurgical structure of the weld deposit and other factors. WELDING CONSUMABLES CATALOG ı 103
- Page 54 and 55: MIG (GMAW) WIRE SuperArc® Typical
- Page 56 and 57: MIG (GMAW) WIRE SuperArc® Typical
- Page 58 and 59: MIG (GMAW) WIRE SuperArc® Typical
- Page 60 and 61: MIG (GMAW) WIRE SuperArc® Typical
- Page 62 and 63: MIG (GMAW) WIRE SuperArc® Typical
- Page 64 and 65: MIG (GMAW) WIRE SuperArc® Capable
- Page 66 and 67: TIG (GTAW) CUT LENGTHS Lincoln® Ty
- Page 68 and 69: MIG (GMAW) & TIG (GTAW) CONSUMABLES
- Page 70 and 71: METAL-CORED WIRE Metalshield ® Mil
- Page 72 and 73: Structural Welding Code Seismic Sup
- Page 74 and 75: METAL-CORED WIRE Metalshield ® Mil
- Page 76 and 77: METAL-CORED WIRE Metalshield ® Low
- Page 78 and 79: METAL-CORED WIRE Metalshield ® Low
- Page 80 and 81: METAL-CORED WIRE Metalshield ® Low
- Page 82 and 83: METAL-CORED CONSUMABLES Notes 80 ı
- Page 84 and 85: FLUX-CORED SELF-SHIELDED (FCAW-S) W
- Page 86 and 87: Structural Welding Code Seismic Sup
- Page 88 and 89: FLUX-CORED SELF-SHIELDED (FCAW-S) W
- Page 90 and 91: FLUX-CORED SELF-SHIELDED (FCAW-S) W
- Page 92 and 93: FLUX-CORED SELF-SHIELDED (FCAW-S) W
- Page 94 and 95: Structural Welding Code Seismic Sup
- Page 96 and 97: Structural Welding Code Seismic Sup
- Page 98 and 99: Structural Welding Code Seismic Sup
- Page 100 and 101: Structural Welding Code Seismic Sup
- Page 102 and 103: FLUX-CORED SELF-SHIELDED (FCAW-S) W
- Page 106 and 107: FLUX-CORED SELF-SHIELDED (FCAW-S) W
- Page 108 and 109: Structural Welding Code Seismic Sup
- Page 110 and 111: Structural Welding Code Seismic Sup
- Page 112 and 113: Structural Welding Code Seismic Sup
- Page 114 and 115: FLUX-CORED GAS-SHIELDED (FCAW-G) WI
- Page 116 and 117: FLUX-CORED GAS-SHIELDED (FCAW-G) WI
- Page 118 and 119: FLUX-CORED GAS-SHIELDED (FCAW-G) WI
- Page 120 and 121: FLUX-CORED GAS-SHIELDED (FCAW-G) WI
- Page 122 and 123: FLUX-CORED GAS-SHIELDED (FCAW-G) WI
- Page 124 and 125: FLUX-CORED GAS-SHIELDED (FCAW-G) WI
- Page 126 and 127: FLUX-CORED GAS-SHIELDED (FCAW-G) WI
- Page 128 and 129: FLUX-CORED GAS-SHIELDED (FCAW-G) WI
- Page 130 and 131: Structural Welding Code Seismic Sup
- Page 132 and 133: FLUX-CORED GAS-SHIELDED (FCAW-G) WI
- Page 134 and 135: FLUX-CORED GAS-SHIELDED (FCAW-G) WI
- Page 136 and 137: Structural Welding Code Seismic Sup
- Page 138 and 139: FLUX-CORED GAS-SHIELDED (FCAW-G) WI
- Page 140 and 141: FLUX-CORED GAS-SHIELDED (FCAW-G) WI
- Page 142 and 143: Structural Welding Code Seismic Sup
- Page 144 and 145: Structural Welding Code Seismic Sup
- Page 146 and 147: Structural Welding Code Seismic Sup
- Page 148 and 149: FLUX-CORED GAS-SHIELDED (FCAW-G) WI
- Page 150 and 151: FLUX-CORED GAS-SHIELDED (FCAW-G) WI
- Page 152 and 153: FLUX-CORED GAS-SHIELDED (FCAW-G) WI
Innershield ®<br />
MECHANICAL PROPERTIES (1) – As Required per AWS A5.29/A5.29M<br />
Yield Strength (2)<br />
MPa (ksi)<br />
Tensile Strength<br />
MPa (ksi)<br />
Elongation<br />
%<br />
Charpy V-Notch<br />
J (ft•lbf)<br />
@-40°C (-40°F)<br />
Requirements (4) - AWS E71T8-Ni2-JH8 400 (58) min. 480-655 (70-90) 20 min. 27 (20) min.<br />
Typical Results (3) 440 (63) 520 (76) 28 210-480 (158-360)<br />
DEPOSIT COMPOSITION (1) – As Required per AWS A5.29/A5.29M<br />
%C %Mn %Ni %Si<br />
Requirements - AWS E71T8-Ni2-JH8 0.12 max. 1.50 max. 1.75-2.75 0.80 max.<br />
Typical Results (3,4) 0.01 0.76 1.8 0.13<br />
%S %P %Al<br />
FLUX-CORED SELF-SHIELDED (FCAW-S) WIRE<br />
-440Ni2<br />
5<br />
NR®-<br />
AWS E71T8-Ni2-JH8 • Low Alloy, All Position<br />
Typical Applications<br />
Offshore Designed to provide optimal weldability in<br />
Welding Positions<br />
All<br />
narrow TKY joints and poor fit up conditions<br />
Expect fast travel speeds and a flat bead face<br />
when using vertical-up or vertical-down<br />
welding techniques<br />
Low temperature impact toughness, meets<br />
ABS 4YSA and AWS J classification<br />
Meets H8 diffusible hydrogen requirements<br />
over a range of humidity levels<br />
ProTech ® Key Features<br />
Conformances<br />
AWS 5.29/A5.29M: E71T8-Ni2-JH8<br />
ASME SFA-5.29<br />
ABS<br />
DNV<br />
LR<br />
E71T8-Ni2-JH8<br />
4YSAH10<br />
IV YMS H10<br />
4YS H10<br />
hermetically sealed packaging<br />
DIAMETERS / PACKAGING<br />
Diameter<br />
14 lb (6.4 kg) Coil<br />
14 lb (6.4 kg) Coil<br />
56 lb (25.4 kg) Hermetically Sealed Pail<br />
56 lb (25.4 kg) Hermetically Sealed Pail<br />
Q2 ® mm (in)<br />
Lot Tested<br />
2.0 (5/64) ED033627 ED033627<br />
Diffusible Hydrogen<br />
(mL/100g weld deposit)<br />
Requirements - AWS E71T8-Ni2-JH8 0.030 max. 0.030 max. 1.8 max. 8.0 max.<br />
Typical Results (3,4) ≤0.010 ≤0.010 1.1 5-8<br />
TYPICAL OPERATING PROCEDURES<br />
Diameter, CTWD Wire Feed Speed Voltage Approx. Current Melt-Off Rate Deposition Rate Efficiency<br />
Polarity mm (in) m/min (in/min) (volts) (amps) kg/hr (lb/hr) kg/hr (lb/hr) (%)<br />
1.8 (70) 16-17 205 1.9 (4.2) 1.5 (3.2) 76<br />
2.0 (80) 17-18 225 2.2 (4.7) 1.6 (3.6) 77<br />
2.0 mm (5/64 in), 25 (1) 2.3 (90) 18-19 240 2.4 (5.3) 1.9 (4.2) 78<br />
DC-<br />
2.5 (100) 19-20 260 2.7 (5.9) 2.1 (4.7) 79<br />
2.8 (110) 20-21 260 3.0 (6.5) 2.4 (5.2) 80<br />
3.0 (120) 20-21 295 3.2 (7.1) 2.5 (5.6) 79<br />
(1) Typical all weld metal. (2) Measured with 0.2% offset. (3) See test results disclaimer on pg. 16. (4) The strength and elongation properties reported were obtained from a 2.8 mm (0.505 in) tensile specimen artificially aged at 104°C (220°F) for 48 hours, as permitted<br />
by AWS A5.20-05. A naturally aged tensile specimen may take months to achieve the specified properties. See AWS A5.20-05, paragraph A8.3. The time required for the natural aging of weld deposits is dependent upon ambient conditions, weldment geometry, the<br />
metallurgical structure of the weld deposit and other factors.<br />
WELDING CONSUMABLES CATALOG ı 103
Change language