AWS Classification E2209T1-1/T1-4 Explained
The AWS A5.22 classification E2209T1-1/T1-4 is decoded as follows in the table below:
| Designator |
Meaning |
| E |
Electrode: a consumable electrode that conducts current |
| 2209 |
Weld deposit chemistry: 22% Cr, 9% Ni duplex type |
| T |
Tubular electrode (flux cored wire construction) |
| 1 |
Welding position: 1 = all-position (F, H, V-up, OH) |
| – (dash) |
Separator |
| 1 |
Shielding gas: 100% CO₂ OR Ar/CO₂ mixed gas |
| /T1-4 |
Dual classification: 4 = Ar/CO₂ mix only |
The dual designation means this wire meets AWS requirements with both 100% CO₂ and Ar/CO₂ mixed gas. A T1-4-only wire has been tested with Ar/CO₂ alone. Buyers should note the T0 variant: E2209T0-1/T0-4 covers flat and horizontal positions only, so T1 must be specified for vertical-up and overhead work.
Weld Deposit Chemical Composition of E2209T1-1/T1-4
The all-weld-metal chemical composition of E2209T1-1/T1-4 flux cored wire, as per AWS A5.22, is given below.
| Material / Element |
Carbon (C) |
Manganese (Mn) |
Silicon (Si) |
Chromium (Cr) |
Nickel (Ni) |
Molybdenum (Mo) |
Nitrogen (N) |
Phosphorus (P) |
Sulphur (S) |
Copper (Cu) |
| AWS A5.22 Requirement |
0.04 max |
0.50-2.00 |
1.00 max |
21.0-24.0 |
7.50-10.0 |
2.50-4.00 |
0.08-0.20 |
0.04 max |
0.03 max |
0.75 max |
| Typical (Ar/CO₂) |
0.025-0.030 |
0.9-1.1 |
0.6-0.8 |
22.5-23.0 |
8.8-9.2 |
3.0-3.3 |
0.10-0.14 |
0.020-0.033 |
0.001-0.010 |
0.01-0.10 |
These are weld deposit values (all-weld-metal analysis), not wire analysis. Nickel is over-alloyed at 8.8-9.2% versus ~5.5% in 2205 base metal to promote austenite and avoid excessive ferrite. Nitrogen (0.08-0.20%) is the strongest austenite stabiliser and a major contributor to pitting resistance. Calculated PREN (%Cr + 3.3×%Mo + 16×%N) reaches approximately 35.6, above the 34 threshold for duplex service.
All-Weld-Metal Mechanical Properties of E2209T1-1/T1-4
The all-weld-metal mechanical properties of E2209T1-1/T1-4 duplex flux cored wire as per AWS A5.22 are given below.
| Property |
Tensile Strength (Rm) |
Yield Strength (Rp0.2) |
Elongation (A, Lo=5d0) |
Hardness |
| AWS A5.22 Minimum |
≥ 690 MPa (100 ksi) |
≥ 450 MPa (65 ksi) |
≥ 20% |
Not specified |
| Typical (Ar/CO₂) |
780-830 MPa (113-120 ksi) |
550-620 MPa (80-90 ksi) |
25-32% |
230-260 HB |
Base Metal Compatibility and P-Number Matrix for E2209T1-1/T1-4
E2209T1-1/T1-4 flux cored wire is qualified to join the following base metals, identified by their ASME Section IX P-Numbers.
Similar Metal Joints:
| Base Metal |
UNS |
P-No./Gr. |
Joint Type |
| Duplex 2205 |
S32205 |
P-10H, Gr.1 |
P-10H to P-10H |
| Duplex 2205 (older) |
S31803 |
P-10H, Gr.1 |
P-10H to P-10H |
| Lean Duplex 2304 |
S32304 |
P-10H, Gr.1 |
P-10H to P-10H |
| Lean Duplex 2101 |
S32101 |
P-10H, Gr.1 |
P-10H to P-10H |
Dissimilar Metal Joints:
| Joint Combination |
P-Numbers |
Notes |
| Duplex 2205 to Carbon Steel |
P-10H to P-1 |
Dilution control critical; use stringer beads |
| Duplex 2205 to 316L SS |
P-10H to P-8 |
Duplex-austenitic transition weld |
| Duplex 2205 to 304L SS |
P-10H to P-8 |
Monitor ferrite in the mixed zone |
For dissimilar joints to carbon steel, dilution reduces Cr, Mo, and Ni in the weld zone and can lower PREN below 30. Limit dilution to ≤30% from the carbon steel side and run the first pass with GTAW (ER2209) where possible.
Recommended Welding Parameters for E2209T1-1/T1-4
The table below explains recommended welding parameters for E2209T1-1 and E2209T1-4 duplex flux-cored wires across common diameters and welding positions.
| Diameter |
Position |
Ampere (A) |
Voltage (V) |
Shielding Gas |
| 0.9 mm (0.035”) |
Flat / Horizontal / Vertical-Up |
100–180 |
22–28 |
75–85% Ar / 15–25% CO₂ |
| 1.2 mm (0.045”) |
Flat / Horizontal / Vertical-Up |
130–280 |
23–30 |
75–85% Ar / 15–25% CO₂ |
| 1.6 mm (1/16”) |
Flat / Horizontal |
180–350 |
24–32 |
75–85% Ar / 15–25% CO₂ |
Direct current electrode positive (DCEP) polarity is recommended. Gas flow typically ranges from 20 to 25 l/min. Maintain a contact tip-to-work distance of 15–20 mm and keep heat input between 0.5–2.5 kJ/mm to preserve duplex phase balance and corrosion resistance. Preheating is normally unnecessary.
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Industrial Welding Applications of E2209T1-1/T1-4 Duplex Flux Cored Wire
E2209T1-1/T1-4 is specified across industries needing high-productivity FCAW of 22Cr duplex stainless steel.
Storage, Handling and Moisture Control for E2209T1-1/T1-4
Store spools in original sealed packaging at 15-25°C and below 60% relative humidity. Keep spools elevated on pallets or shelving. Once the vacuum seal is broken, use the spool within 24-72 hours or transfer it to a heated wire cabinet at 40-60°C.
If moisture pickup is suspected, re-dry at 130-150°C for 2-4 hours (maximum two re-drying cycles; do not exceed 200°C). Moisture creates hydrogen during welding, which can cause porosity, wormholes, and hydrogen cracking in the ferrite. Always handle spools with clean, dry gloves to avoid contaminating the wire surface.
How to Order E2209T1-1/T1-4 Flux Cored Wire from Nicorex Alloys
To order E2209T1-1/T1-4 Flux Cored Wire, follow these 9 important steps:
Nicorex Alloys supplies matching consumables across all processes: E2209-16/17 (SMAW) + ER2209 (TIG/MIG) + E2209T1-1/T1-4 (FCAW) as a complete duplex consumable set.
Frequently Asked Questions