AWS Class ER308L/308H SAW & Flux

AWS ER308L/308H SAW Wire & Flux Supplier in Mumbai, India

Nicorex Alloys is an ISO 9001 and ISO 14001 certified importer, supplier, and stockist of ER308L and ER308H SAW wire and flux based in Mumbai, India. We distribute these submerged arc welding consumables as classified under AWS A5.9 with EN 10204-3.1 mill test certificates and full heat-lot traceability.

ER308L (UNS S30883) and ER308H (UNS S30880) are austenitic stainless steel SAW wires. ER308L has a maximum carbon content of 0.03%, which helps prevent intergranular carbide precipitation, and sensitisation in the 425 to 870°C temperature range. ER308H has a carbon content between 0.04 and 0.08%, which provides better creep‑rupture strength for service above 425°C (800°F). Both wires produce 18Cr-8Ni austenitic weld deposits. The weld metal is controlled to have 5 to 15 FN delta ferrite to reduce the risk of solidification cracking. The wires are available in diameters from 2.0 to 4.0 mm and are supplied in 12.5 kg and 25 kg coils, as well as 100 kg and 250 kg drums. Nicorex supplies these wires with compatible fluxes for submerged arc welding and stainless steel cladding applications.

ER308L is the standard filler metal for welding 304 and 304L stainless steel at normal to moderate temperatures. ER308H is used for 304H stainless steel in high‑temperature ASME BPVC applications. These flux & wires serve industries such as food and beverage, pharmaceuticals, chemicals, power, petrochemicals, nuclear and water treatment.

AWS Class ER308L/308H SAW & Flux

ER308L/308H SAW Wire & Flux Specification

Key specifications for ER308L and ER308H SAW wire and flux include standards, material designations, wire forms, diameters, finish, and surface finish.
AWS Standard A5.9
UNS Designation S30883 (ER308L) / S30880 (ER308H)
Form Solid bare wire (continuous electrode for SAW)
Wire Diameters 2.0 mm, 2.4 mm, 3.2 mm, 4.0 mm
Wire Length Continuous wire on coils and drums
Surface Finish Clean, bright, free from scale and contaminants
Condition Cold-drawn, solid wire condition
Flux Manufacturer-matched; qualified as a wire–flux system per ASME Section IX

What Does ER308L/308H Mean? - AWS A5.9 Classification Explained

Each letter and number in the AWS designation carries a specific meaning. Refer to the table below for the detailed breakdown:
Designation Meaning Technical Significance
E Electrode Indicates it can be used as a current-carrying filler metal for arc welding.
R Rod Indicates it can be used as a filler rod (common in GTAW/TIG welding).
308 AISI Type 308 A stainless steel alloy with about 20% chromium and 10% nickel, richer than 304, to prevent weld cracking.
L Low Carbon Carbon is limited to 0.03% to stop carbide buildup (“sensitisation”) and protect the weld from grain-boundary corrosion.
H High Carbon Carbon is 0.04-0.08%, which increases creep strength and helps the steel resist deformation at high temperatures.
The ER prefix means the filler can be used as an electrode for GMAW and SAW, and as a rod for GTAW. The 308 grade has more chromium and nickel than 304, which forms delta ferrite and helps prevent hot cracking. The L grade lowers carbon for corrosion resistance. The H grade increases carbon for creep strength. A filler cannot be both L and H at the same time.

Chemical Composition of ER308L and ER308H (AWS A5.9)

ER308L and ER308H compositions are nearly identical, with carbon content being the primary distinction. Refer to the table below for the detailed chemical composition.
Material / Element Carbon (C) Chromium (Cr) Nickel (Ni) Manganese (Mn) Silicon (Si) Molybdenum (Mo) Copper (Cu) Phosphorus (P) Sulphur (S)
ER308L (wt%) 0.03 max 19.5–22.0 9.0–11.0 1.0–2.5 0.30–0.65 0.75 max 0.75 max 0.03 max 0.03 max
ER308H (wt%) 0.04–0.08 19.5–22.0 9.0–11.0 1.0–2.5 0.30–0.65 0.75 max 0.75 max 0.03 max 0.03 max
Heat-specific values are confirmed in the EN 10204-3.1 MTC from Nicorex Alloys. The chromium content of 19.5-22.0% and nickel content of 9.0-11.0% give a delta ferrite level of 5-15 FN. Silicon at 0.30-0.65% improves weld pool flow, and molybdenum at a maximum of 0.75% is present only as a residual element.

Mechanical Properties of ER308L/308H Weld Deposit

Typical as-welded properties of ER308L and ER308H welds include their strength, ductility and hardness for easy comparison.
Property Ultimate Tensile Strength Yield Strength (0.2%) Elongation Hardness
ER308L Typical (As-Welded) 75–90 ksi (515–620 MPa) 45–65 ksi (310–448 MPa) 35–45% ~80–90 HRB
ER308H Typical (As-Welded) 80–95 ksi (550–655 MPa) 50–70 ksi (345–483 MPa) 30–40% ~85–95 HRB
ER308H is stronger because of interstitial strengthening, and it is mainly chosen for its creep‑rupture performance at temperatures above 425°C (800°F). ER308L is more ductile and is preferred where corrosion resistance is the main requirement. Batch-specific properties are given in the EN 10204-3.1 mill test certificate.

Base Metals Compatible with ER308L/308H SAW Wire

Base metal compatibility for ER308L and ER308H SAW wire depends on carbon level, service conditions and the needed strength and corrosion resistance.
Base Metal Grade (UNS) ASME P.No Notes
Type 304L S30403 P8 Filler: ER308L. Low carbon limits sensitisation; used in tanks, piping, heat exchangers.
Type 304 S30400 P8 Filler: ER308L or ER308H. General-purpose grade; food, chemical, and architectural applications.
Type 304H S30409 P8 Filler: ER308H. High-carbon variant for elevated-temperature service; superheaters and ASME BPVC above 425 °C.
Type 301 S30100 P8 Filler: ER308L. Higher strength austenitic; structural and automotive trim applications.
Type 302 S30200 P8 Filler: ER308L. General-purpose grade; springs and light fabrication.
Type 305 S30500 P8 Filler: ER308L. Low work-hardening rate; suited to deep drawing and spinning operations.
Type 321 S32100 P8 Filler: ER347 preferred; ER308L acceptable. Ti-stabilised grade; ER347 better matches stabilisation intent.
For dissimilar joints between 304 stainless steel and carbon steel, use ER309L instead of ER308L. ER309L contains more chromium and nickel, which makes up for the dilution effect during welding.

Recommended SAW Welding Parameters for ER308L/308H

These SAW welding settings for ER308L and ER308H help keep the arc stable, control heat and give consistent weld quality.
Wire Diameter Amperage (A) Polarity Shielding Gas / Flux
2.4 mm (cladding) 300–450 A DCEP SAW flux (no external shielding gas); agglomerated neutral flux recommended for austenitic SS
3.2 mm (butt joints) 400–600 A DCEP SAW flux; neutral or slightly basic flux to control dilution and maintain austenitic microstructure
Preheating is avoided because it keeps the metal in the 425-870°C sensitisation range for longer.
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Industries and Applications of ER308L/308H SAW Wire & Flux

ER308L is the most widely used stainless SAW filler worldwide. ER308H is mainly used in power and petrochemical plants for high‑temperature service.
Industrial Applications

Storage and Handling of ER308L/308H SAW Wire & Flux

Store flux in its original sealed containers at a humidity below 50%. After opening, use it within 8-24 hours or reseal it. If the flux absorbs moisture, rebake it at 250-350°C for 1-2 hours and discard any material that is clumped. Recycle only up to 50% unfused flux after sieving.
Store wire in clean, dry original packaging, away from oil, grease and dust. Handle it with clean gloves to avoid chloride contamination and carbon pickup. All wire is supplied sealed with lot identification and EN 10204-3.1 test certificates.

ER308L/308H SAW Wire Sizes & Packaging

ER308L and ER308H SAW wires are available in several diameters and packaging options. Make sure to specify the correct grade when placing an order.
Form Diameter Packaging
SAW Wire 2.0 mm (5/64″) 12.5 kg, 25 kg coils
SAW Wire 2.4 mm (3/32″) 12.5 kg, 25 kg coils
SAW Wire 3.2 mm (1/8″) 25 kg coils; 100 kg, 250 kg drums
SAW Wire 4.0 mm (5/32″) 25 kg coils; 100 kg, 250 kg drums
All packaging is labelled with lot ID and EN 10204-3.1 MTC. Stock is available either from inventory or on an indent (made-to-order) basis.

How to Order AWS Class ER308L/308H SAW Wire & Flux from Nicorex Alloys

To request a quotation for ER308L/308H SAW wire & flux from Nicorex Alloys, provide the following details:

Frequently Asked Questions

What is the difference between ER308L and ER308H?
ER308L has very low carbon for better corrosion resistance. ER308H has higher carbon for strength at high temperatures.
No. ER308L does not meet the required carbon for high-temperature creep strength in 304H.
Usually between 5 and 15 ferrite numbers. The exact value depends on weld chemistry, wire composition, and how the flux reacts during welding.
Dilution from carbon steel lowers chromium and nickel, risking brittle martensite. ER309L has higher chromium, and nickel to safely offset this dilution.
No preheat is used. Heating beforehand keeps steel longer in the sensitisation range, which promotes carbide precipitation, and reduces corrosion resistance.
Keep interpass temperature at or below 150°C. This limits heat buildup, controls microstructure and maintains a stable ferrite content in the weld.
Flux changes elements like silicon and manganese in the weld. Basic or neutral fluxes help maintain the desired ferrite range in the deposit.
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