Consumeables Catalog - Lincoln Electric
Consumeables Catalog - Lincoln Electric Consumeables Catalog - Lincoln Electric
SUBMERGED ARC (SAW) ELECTRODE Lincolnweld ® Stainless • AWS ER316, ER316L Designed to be used primarily with basic fluxes that recover nearly all of the wire chromium in the deposit Molybdenum grade for increased corrosion resistance Q2 Lot ® Key Features - Certificate showing actual wire composition and calculated ferrite number (FN) available online Low carbon content recommended where there is a risk of intergranular corrosion Recommended Fluxes Lincolnweld ® 801, 802, 880, 880M, 882, P2007, ST-100 WIRE COMPOSITION (1) – As Required per AWS A5.9/A5.9M: 2006 %C (4) %Cr %Ni %Mo %Mn %Si Requirements - AWS ER316L 0.03 max. 18.0 - 20.0 11.0 - 14.0 2.0 - 3.0 1.0 - 2.5 0.30 - 0.65 Typical Performance (3) As-Welded All Weld Metal Composition (5) 0.02 0.02 226 ı THE LINCOLN ELECTRIC COMPANY 19.0 17.8 - 18.4 (1) Typical all weld metal. (2) Measured with 0.2% offset. (3) See test results disclaimer on pg. 16. (4) AWS Requirement for ER316 is 0.08% max. carbon. (5) Results shown correspond with the recommended Lincolnweld ® and Blue Max ® fluxes listed above, but not required per AWS A5.9-93. 11.9 11.9 2.2 2.2 1.8 1.6 - 2.0 0.50 0.50 - 0.80 TYPICAL OPERATING PROCEDURES Diameter - in (mm) Wire Feed Speed - m/min (in/min) Voltage (volts) Current (amps) 5/64 (2.0) 3/32 (2.4) 1/8 (3.2) 5/32 (4.0) 316/316L 2.0-6.1 (80-240) 1.5-5.3 (60-210) 0.9-2.8 (35-110) 0.8-1.9 (30-75) Typical Applications ASTM A743, A744 Types CF-8 and CF-3 Type 316 and 316L For joining the more common austenitic stainless steel grades referred to as “18-8” steels For very good corrosion resistance in acid environments Conformances AWS A5.9/A5.9M: 2006 ASME SFA-A5.9: ABS: CWB/CSA W48-06: EN ISO 14343-B: DIAMETERS / PACKAGING Diameter - in (mm) 60 lb (27.2 kg) Coil 5/64 (2.0) 3/32 (2.4) 1/8 (3.2) 5/32 (4.0) ED033155 ED033156 ED033157 ED033158 MECHANICAL PROPERTIES (1) – As Required per AWS A5.9/A5.9M: 2006 Yield Strength (2) MPa (ksi) Tensile Strength MPa (ksi) Elongation % 24-30 26-32 28-34 30-36 ER316, ER316L ER316, ER316L ER316, ER316L ER316L SS316L Requirements - AWS ER316, ER316L Not Specified Test Results (3, 5) - As-Welded 380 (55) 550 (80) 42 9 Ferrite Number 190-500 195-575 200-700 320-775 IMPORTANT: SPECIAL VENTILATION AND/OR EXHAUST REQUIRED Fumes from the normal use of some welding products can contain significant quantities of components - such as chromium and manganese - which can lower the 5.0 mg/m3 maximum exposure guideline for general welding fume. BEFORE USE, READ AND UNDERSTAND THE MATERIAL SAFETY DATA SHEET (MSDS) FOR THIS PRODUCT AND SPECIFIC INFORMATION PRINTED ON THE PRODUCT CONTAINER.
Typical Applications For submerged arc welding of the 300 and 400 series stainless steels, and similar alloy filler metal Packaging 50 lb (22.7 kg) Plastic Bag ED033159 MECHANICAL PROPERTIES (1) Lincolnweld ® P2007 (3) With Lincolnweld ® S308/308L With Lincolnweld ® S309/309L With Lincolnweld ® S316/316L DEPOSIT COMPOSITION (1) Lincolnweld ® Yield Strength (2) MPa (ksi) 380 (55) 400 (58) 380 (55) SUBMERGED ARC (SAW) FLUX P2007 EN 760 – S A AF 2 • Stainless Key Features Neutral basic flux designed for welding stainless steel and nickel alloys Produces sound welds with excellent slag removal and bead appearance Exhibits superior resistance to moisture pickup Designed for maximum toughness and ductility with duplex stainless steels Tensile Strength MPa (ksi) 565 (82) 570 (83) 550 (80) Elongation % 42 35 42 Ferrite Number %C %Mn %Si %Cr %Ni %Mo %P %S Lincolnweld ® P2007 (3) With Lincolnweld ® S308/308L 0.02 1.52 0.63 18.83 9.67 0.13 0.02 0.01 With Lincolnweld ® S309/309L 0.03 1.71 0.59 23.58 13.35 0.09 0.02
- Page 178 and 179: SUBMERGED ARC (SAW) FLUX Lincolnwel
- Page 180 and 181: SUBMERGED ARC (SAW) FLUX Lincolnwel
- Page 182 and 183: SUBMERGED ARC (SAW) ELECTRODE Linco
- Page 184 and 185: SUBMERGED ARC (SAW) ELECTRODE Linco
- Page 186 and 187: SUBMERGED ARC (SAW) ELECTRODE Linco
- Page 188 and 189: SUBMERGED ARC (SAW) ELECTRODE Linco
- Page 190 and 191: SUBMERGED ARC (SAW) ELECTRODE Linco
- Page 192 and 193: SUBMERGED ARC (SAW) ELECTRODE Linco
- Page 194 and 195: SUBMERGED ARC (SAW) CONSUMABLES Not
- Page 196 and 197: STICK (SMAW) ELECTRODE Excalibur®
- Page 198 and 199: STICK (SMAW) ELECTRODE Excalibur ®
- Page 200 and 201: STICK (SMAW) ELECTRODE Excalibur ®
- Page 202 and 203: STICK (SMAW) ELECTRODE Excalibur ®
- Page 204 and 205: STICK (SMAW) ELECTRODE Excalibur ®
- Page 206 and 207: MIG (GMAW) WIRE Blue Max® Stainles
- Page 208 and 209: MIG (GMAW) WIRE Blue Max® Stainles
- Page 210 and 211: MIG (GMAW) WIRE Blue Max ® Stainle
- Page 212 and 213: MIG (GMAW) WIRE Blue Max® Stainles
- Page 214 and 215: MIG (GMAW) WIRE Blue Max® Stainles
- Page 216 and 217: FLUX-CORED GAS-SHIELDED (FCAW-G) WI
- Page 218 and 219: FLUX-CORED GAS-SHIELDED (FCAW-G) WI
- Page 220 and 221: FLUX-CORED GAS-SHIELDED (FCAW-G) WI
- Page 222 and 223: FLUX-CORED GAS-SHIELDED (FCAW-G) WI
- Page 224 and 225: FLUX-CORED GAS-SHIELDED (FCAW-G) WI
- Page 226 and 227: SUBMERGED ARC (SAW) ELECTRODE Linco
- Page 230 and 231: SUBMERGED ARC (SAW) FLUX Lincolnwel
- Page 232 and 233: TIG (GTAW) CUT LENGTHS Lincoln® St
- Page 234 and 235: TIG (GTAW) CUT LENGTHS Lincoln® St
- Page 236 and 237: METAL-CORED (GMAW-C) WIRE Outershie
- Page 238 and 239: HARDFACING STICK (SMAW) ELECTRODE W
- Page 240 and 241: HARDFACING STICK (SMAW) ELECTRODE W
- Page 242 and 243: HARDFACING STICK (SMAW) ELECTRODE W
- Page 244 and 245: HARDFACING STICK (SMAW) ELECTRODE W
- Page 246 and 247: HARDFACING STICK (SMAW) ELECTRODE W
- Page 248 and 249: HARDFACING METAL-CORED GAS-SHIELDED
- Page 250 and 251: HARDFACING METAL-CORED (GMAW-C) WIR
- Page 252 and 253: HARDFACING FLUX-CORED SELF-SHIELDED
- Page 254 and 255: HARDFACING FLUX-CORED SELF-SHIELDED
- Page 256 and 257: HARDFACING FLUX-CORED SELF-SHIELDED
- Page 258 and 259: HARDFACING FLUX-CORED SELF-SHIELDED
- Page 260 and 261: HARDFACING FLUX-CORED SELF-SHIELDED
- Page 262 and 263: HARDFACING METAL-CORED SUBMERGED AR
- Page 264 and 265: HARDFACING METAL-CORED SUBMERGED AR
- Page 266 and 267: HARDFACING METAL-CORED SUBMERGED AR
- Page 268 and 269: HARDFACING METAL-CORED SUBMERGED AR
- Page 270 and 271: HARDFACING METAL-CORED SUBMERGED AR
- Page 272 and 273: HARDFACING METAL-CORED SUBMERGED AR
- Page 274 and 275: HARDFACING METAL-CORED SUBMERGED AR
- Page 276 and 277: HARDFACING METAL-CORED SUBMERGED AR
SUBMERGED ARC (SAW) ELECTRODE<br />
<strong>Lincoln</strong>weld ®<br />
Stainless • AWS ER316, ER316L<br />
Designed to be used primarily with basic<br />
fluxes that recover nearly all of the wire<br />
chromium in the deposit<br />
Molybdenum grade for increased corrosion<br />
resistance<br />
Q2 Lot ® Key Features<br />
- Certificate showing actual wire<br />
composition and calculated ferrite number<br />
(FN) available online<br />
Low carbon content recommended where<br />
there is a risk of intergranular corrosion<br />
Recommended Fluxes<br />
<strong>Lincoln</strong>weld ® 801, 802, 880, 880M, 882, P2007,<br />
ST-100<br />
WIRE COMPOSITION (1) – As Required per AWS A5.9/A5.9M: 2006<br />
%C (4) %Cr %Ni %Mo %Mn %Si<br />
Requirements - AWS ER316L 0.03 max. 18.0 - 20.0 11.0 - 14.0 2.0 - 3.0 1.0 - 2.5 0.30 - 0.65<br />
Typical Performance (3)<br />
As-Welded<br />
All Weld Metal Composition (5)<br />
0.02<br />
0.02<br />
226 ı THE LINCOLN ELECTRIC COMPANY<br />
19.0<br />
17.8 - 18.4<br />
(1) Typical all weld metal. (2) Measured with 0.2% offset. (3) See test results disclaimer on pg. 16. (4) AWS Requirement for ER316 is 0.08% max. carbon.<br />
(5) Results shown correspond with the recommended <strong>Lincoln</strong>weld ® and Blue Max ® fluxes listed above, but not required per AWS A5.9-93.<br />
11.9<br />
11.9<br />
2.2<br />
2.2<br />
1.8<br />
1.6 - 2.0<br />
0.50<br />
0.50 - 0.80<br />
TYPICAL OPERATING PROCEDURES<br />
Diameter - in (mm) Wire Feed Speed - m/min (in/min) Voltage (volts) Current (amps)<br />
5/64 (2.0)<br />
3/32 (2.4)<br />
1/8 (3.2)<br />
5/32 (4.0)<br />
316/316L<br />
2.0-6.1 (80-240)<br />
1.5-5.3 (60-210)<br />
0.9-2.8 (35-110)<br />
0.8-1.9 (30-75)<br />
Typical Applications<br />
ASTM A743, A744 Types CF-8 and CF-3<br />
Type 316 and 316L<br />
For joining the more common austenitic stainless steel<br />
grades referred to as “18-8” steels<br />
For very good corrosion resistance in acid environments<br />
Conformances<br />
AWS A5.9/A5.9M: 2006<br />
ASME SFA-A5.9:<br />
ABS:<br />
CWB/CSA W48-06:<br />
EN ISO 14343-B:<br />
DIAMETERS / PACKAGING<br />
Diameter - in (mm) 60 lb (27.2 kg) Coil<br />
5/64 (2.0)<br />
3/32 (2.4)<br />
1/8 (3.2)<br />
5/32 (4.0)<br />
ED033155<br />
ED033156<br />
ED033157<br />
ED033158<br />
MECHANICAL PROPERTIES (1) – As Required per AWS A5.9/A5.9M: 2006<br />
Yield Strength (2)<br />
MPa (ksi)<br />
Tensile Strength<br />
MPa (ksi)<br />
Elongation<br />
%<br />
24-30<br />
26-32<br />
28-34<br />
30-36<br />
ER316, ER316L<br />
ER316, ER316L<br />
ER316, ER316L<br />
ER316L<br />
SS316L<br />
Requirements - AWS ER316, ER316L Not Specified<br />
Test Results (3, 5) - As-Welded 380 (55) 550 (80) 42 9<br />
Ferrite<br />
Number<br />
190-500<br />
195-575<br />
200-700<br />
320-775<br />
IMPORTANT: SPECIAL VENTILATION AND/OR EXHAUST REQUIRED<br />
Fumes from the normal use of some welding products can contain significant quantities of components - such as chromium and manganese - which can lower the 5.0 mg/m3 maximum exposure guideline for general welding fume.<br />
BEFORE USE, READ AND UNDERSTAND THE MATERIAL SAFETY DATA SHEET (MSDS) FOR THIS PRODUCT AND SPECIFIC INFORMATION PRINTED ON THE PRODUCT CONTAINER.
Change language