AWS Class E308LT1-1/T1-4 Flux Core

E308LT1-1/T1-4 Stainless Steel Flux Cored Wire Supplier in India

Nicorex Alloys is an ISO 9001 and ISO 14001 certified supplier and stockist of E308LT1-1/T1-4 stainless steel flux cored wire based in Mumbai, India. We provide these cored wires classified under AWS A5.22 and ASME SFA 5.22. We are also an importer of FCAW consumables from global mills.

E308LT1-1/T1-4 Stainless Steel Flux Core Wire has about 19.5% chromium and 10% nickel, with very low carbon (up to 0.04%). This low carbon level stops chromium carbides from forming, which helps protect the weld from intergranular corrosion. For fabrication shops welding Type 304 and 304L stainless steel at production speed, AWS A5.22 E308LT1-1/T1-4 flux cored wire delivers deposition rates and all-position versatility that solid wire and stick electrodes cannot match. This gas-shielded rutile-type tubular wire carries dual designations, E308LT1-1 for 100% CO2 shielding and E308LT1-4 for 75-80% Ar / 20-25% CO2 mixed gas (UNS W30831 / W30835). The weld meets the AWS minimum tensile strength of 520 MPa (75,000 psi), and in practice it usually reaches about 85,000–88,000 psi, with a minimum elongation of 35%. The cored electrode produces low spatter, self-releasing slag, and a ferrite content of 8-12 FN for crack resistance. Available diameters are 0.9 mm (0.035″), 1.2 mm (0.045″), and 1.6 mm (1/16″). Welding runs on DCEP in all positions.

Compatible base metals span AISI 301, 302, 304, 304L, 308, 308L, 321, 347, and CF-3/CF-8 castings. Industries served include food and beverage, chemical processing, pharmaceutical, pulp and paper, nuclear, and marine. Every spool ships with MTC 3.1 per EN 10204.

E308LT1-1/T1-4 Stainless Steel Flux Cored Wire

E308LT1-1/T1-4 Flux Cored Wire Specifications

The following E308LT1 specifications apply to gas-shielded stainless steel flux-cored wire for FCAW:
AWS SpecificationAWS A5.22/A5.22M:2012
ASME SFA SpecificationSFA 5.22
UNS NumberW30831 (T1-1) / W30835 (T1-4)
Welding ProcessFCAW-G (Gas Shielded)
Flux TypeRutile (Titania-based)
Polarity / CurrentDCEP (DC Electrode Positive)
Welding PositionsAll positions (Flat, Horizontal, Vertical-Up, Overhead)
Shielding Gas(T1-1): 100% CO2, flow rate 35-50 cfh (15-25 L/min)
(T1-4): 75-80% Ar / 20-25% CO2, flow rate 35-50 cfh (15-25 L/min)
Available Diameters0.9 mm (0.035″), 1.2 mm (0.045″), 1.6 mm (1/16″)
Spool Sizes5 kg, 12.5 kg (28 lb), 15 kg (33 lb)
Deposition Efficiency~80-88%

AWS Classification: What E308LT1-1 and E308LT1-4 Mean

This guide explains the AWS classification E308LT1-1 and E308LT1-4 and what each symbol means for stainless flux-cored wires.
Symbol / Part Meaning
AWS A5.22 Specification for stainless steel flux-cored and metal-cored electrodes
E Electrode
308L Weld deposit matching 18Cr-8Ni low-carbon stainless steel
L Low carbon, maximum 0.04% C
T Tubular (flux cored) electrode
1 (after T) All-position capability (flat, horizontal, vertical, overhead)
0 (after T) Flat and horizontal positions only
-1 (after dash) Classified for use with 100% CO₂ shielding gas
-4 (after dash) Classified for use with 75–80% Ar / 20–25% CO₂ gas mixture
Products with dual designation E308LT1-1/T1-4 meet AWS requirements under both gases. For WPS purposes, the shielding gas designator is an essential variable per ASME Section IX QW-408.

Chemical Composition of E308LT1 Weld Deposit (%)

The chemical composition of the E308LT1 weld deposit per AWS A5.22 is mentioned in the table below:
Element Carbon (C) Manganese (Mn) Silicon (Si) Chromium (Cr) Nickel (Ni) Molybdenum (Mo) Phosphorus (P) Sulfur (S) Copper (Cu) Iron (Fe)
AWS A5.22 Requirement 0.04 max 0.50-2.50 1.00 max 18.0-21.0 9.0-11.0 0.75 max 0.04 max 0.03 max 0.75 max Balance
Typical (75/25 Ar/CO2) 0.03 1.87 0.75 19.50 10.30 0.18 0.014 0.016 Balance
Typical (100% CO2) 0.02 1.40 0.53 19.12 10.07 0.018 0.011 Balance
Low carbon at 0.04% max prevents chromium carbide precipitation at grain boundaries. The balanced 19-20% Cr and 10% Ni maintain a stable austenitic structure with controlled delta ferrite.

Mechanical Properties of E308LT1 Weld Deposit

The all-weld-metal mechanical properties of E308LT1, tested in the as-welded condition per AWS A5.22, are as follows:
Property Tensile Strength Yield Strength (0.2%) Elongation (%) Reduction of Area (%) Ferrite Number (FN) Charpy V-Notch +20°C Charpy V-Notch -20°C
AWS A5.22 Requirement ≥75,000 psi (520 MPa) Not specified by AWS ≥35% Not specified Not specified (3-20 FN rec.) Not required by AWS Not required by AWS
Typical (75/25 Ar/CO2) 88,600 psi (611 MPa) 67,750 psi (467 MPa) 38% 10-12 FN 60 J 51 J
Typical (100% CO2) 77,883 psi (537 MPa) 59,062 psi (407 MPa) 42% 49% 8-9 FN
The Ar/CO2 mixture yields higher tensile and yield strengths because argon reduces oxidation losses in the weld pool. Ferrite in the 3-20 FN range (per WRC-1992 diagram) balances crack resistance with corrosion performance.

Base Metal Compatibility & ASME P-Number Matrix

E308LT1-1/T1-4 is designed for joining P-8 Group 1 austenitic stainless steels. The following matrix helps WPS developers select the correct filler.
Base Metal AISI / UNS ASME P-Number Service Temp. Limit
Type 301 UNS S30100 P-8 Group 1 No restriction
Type 302 UNS S30200 P-8 Group 1 No restriction
Type 304 UNS S30400 P-8 Group 1 No restriction
Type 304L UNS S30403 P-8 Group 1 No restriction
Type 304LN UNS S30453 P-8 Group 1 No restriction
Type 305 UNS S30500 P-8 Group 1 No restriction
Type 308 UNS S30800 P-8 Group 1 No restriction
Type 308L UNS S30803 P-8 Group 1 No restriction
Type 321 UNS S32100 P-8 Group 1 ≤260°C (500°F)
Type 347 UNS S34700 P-8 Group 1 ≤260°C (500°F)
CF-3 (Cast) J92500 P-8 Group 1 No restriction
CF-8 (Cast) J92600 P-8 Group 1 No restriction
E308LT1 may weld stabilised grades 321 and 347, provided service stays below 260°C (500°F). Above that, use E347T filler to prevent knife-line attack. ASME Section IX assigns F-Number F-6 and A-Number A-8 (18Cr-8Ni deposit).
E308LT1 is not recommended for dissimilar stainless-to-carbon-steel joints; use E309LT1. It is also not suitable for Mo-bearing grades (316, 316L, 317L), use E316LT1 or E317LT1.

Recommended Welding Parameters for AWS Class E308LT1-1/T1-4 Flux Core

The following parameters cover all available diameters and standard positions on DCEP polarity with gas flow of 35-50 cfh (15-25 L/min). For the Ar/CO2 mixed gas, reduce the voltage by approximately 2V from the CO2 values shown.
Diameter Position Wire Feed (ipm) Current (A) Voltage (V) CTWD
0.035″ (0.9 mm) Flat / Horizontal 365 130-140 24-25 1/2-3/4″
0.035″ (0.9 mm) Vertical-Up 310 110-120 22-23 1/2-3/4″
0.035″ (0.9 mm) Overhead 320 120-130 23-24 1/2-3/4″
0.045″ (1.2 mm) Flat / Horizontal 215-550 140-380 23-35 1/2-1″
0.045″ (1.2 mm) Vertical-Up 325 150-170 24-26 5/8-3/4″
0.045″ (1.2 mm) Overhead 425 175-195 25-27 5/8-3/4″
1/16″ (1.6 mm) Flat / Horizontal 125-615 150-410 24-36 5/8-1.25″
1/16″ (1.6 mm) Vertical-Up 220 190-210 25-26 5/8-3/4″
1/16″ (1.6 mm) Overhead 235 200-220 25-26 5/8-3/4″
Preheat is not required; keep base metal at a minimum of 10°C (50°F). Maximum interpass temperature is 175°C (350°F). Stringer beads are preferred for vertical-up. Clean base metal free of oil, grease, and oxide using stainless steel wire brushes only. PWHT is generally not required for 304/304L.
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Industrial Welding Applications of E308LT1-1/T1-4 Flux Cored Wire

E308LT1-1/T1-4 stainless steel welding wire finds wide application wherever austenitic stainless fabrication demands high productivity and reliable corrosion performance across the following 7 sectors.
Industrial Applications

Storage, Handling & Moisture Control for E308LT1 Flux Core Welding Wire

Store sealed spools at 15-25°C (59-77°F) with humidity below 60%. Once the vacuum seal is broken, use the spool within 1-2 weeks or place it in a heated cabinet at 40-50°C (100-120°F). Moisture causes porosity, arc instability, and potential hydrogen cracking. Unlike SMAW electrodes, flux core wire cannot be re-dried by baking. Handle spools with clean, dry gloves and reject damaged packaging. Nicorex Alloys supplies spools in vacuum-sealed moisture-barrier packaging.

How to Order E308LT1-1/T1-4 from Nicorex Alloys

To order E308LT1-1/T1-4 Stainless Steel Flux Cored Wire, follow these 8 important details:

Frequently Asked Questions

What is the price of E308LT1-1/T1-4 Flux Cored Wire per Kg in India?
E308LT1-1/T1-4 typically costs about ₹800–₹1,500 per kg in India, varying with diameter, spool size, quantity, approvals, and alloy market prices.
E308LT1-1 is classified with 100% CO2 shielding gas, while E308LT1-4 is classified with a 75–80% Ar / 20–25% CO2 gas mixture that usually gives a smoother arc and slightly better properties.
Yes, E308LT1 can weld 321 and 347 stainless steels for service temperatures up to 260°C (500°F), but E347T is preferred above this.
It is available on 5 kg, 12.5 kg (28 lb), 15 kg (33 lb), and 25 kg (55 lb) plastic spools in D200/D300, plus 200–250 kg drums, all vacuum-sealed in moisture-barrier packaging.
The Ar/CO2 mix reduces oxidation of Cr and Ni, preserving alloy content, raising tensile and yield strength, and giving a smoother, lower-spatter arc than 100% CO2.
E308LT1 can replace ER308L when higher deposition rates and positional welding are needed, whereas ER308L is better for thin material and slag-free, cleaner welds.
Do not use E308LT1 for stainless-to-carbon steel, Mo-bearing grades (316, 316L, 317L), 321/347 above 260°C, or cryogenic service below –196°C without specific impact-test approval.
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