AWS Classification Explained: What Do ER316L, ER316LSi, and ER316H Mean?
This table explains the AWS names for 316 welding wires and shows how different carbon and silicon levels affect the weld.
| Classification |
Meaning & Composition |
Primary Purpose/Benefit |
| ER |
Electrode or Rod |
Bare solid wire for TIG, MIG, SAW, or PAW processes. |
| 316 |
18% Cr, 12% Ni, 2.5% Mo |
Standard austenitic stainless steel with molybdenum for corrosion resistance. |
| L |
Low Carbon ($\le 0.03\%$) |
Prevents carbide precipitation (sensitisation) during welding. |
| LSi |
Low Carbon + High Silicon |
Enhanced “wetting” and fluid puddle control, specifically for MIG welding. |
| H |
High Carbon ($0.04 – 0.08\%$) |
Provides superior creep strength for service temperatures above 425°C. |
Weld Deposit Chemical Composition of ER316L, ER316LSi, and ER316H
Weld deposit chemical composition for ER316L, ER316LSi and ER316H is specified below according to AWS A5.9.
| Material |
Carbon (C) |
Chromium (Cr) |
Nickel (Ni) |
Molybdenum (Mo) |
Silicon (Si) |
Manganese (Mn) |
P / S |
Cu / Fe |
| ER316L (S31683) |
0.03% max |
18.0–20.0% |
11.0–14.0% |
2.0–3.0% |
0.30–0.65% |
1.0–2.5% |
0.03% max each |
0.75% max / Bal |
| ER316LSi (S31688) |
0.03% max |
18.0–20.0% |
11.0–14.0% |
2.0–3.0% |
0.65–1.00% |
1.0–2.5% |
0.03% max each |
0.75% max / Bal |
| ER316H (S31680) |
0.04–0.08% |
18.0–20.0% |
11.0–14.0% |
2.0–3.0% |
0.30–0.65% |
1.0–2.5% |
0.03% max each |
0.75% max / Bal |
Molybdenum at 2.0-3.0% is the key alloying element in these wires. ER316L and ER316LSi are the same except for their silicon content. ER316LSi has higher silicon (0.65-1.00%) than ER316L (0.30-0.65%).
Mechanical Properties of ER316L, ER316LSi, and ER316H
Typical as-welded mechanical properties of ER316L, ER316LSi and ER316H are summarised below, along with AWS A5.9 minimum requirements.
| Property |
Tensile Strength |
Yield Strength (0.2%) |
Elongation |
Ferrite Number |
| AWS A5.9 Min |
520 MPa (75 ksi) |
— |
30% min |
— |
| ER316H (Typical) |
620–650 MPa |
380–440 MPa |
32–36% |
8–13 FN |
ER316L weld metal is stronger than 316L base metal (minimum UTS 485 MPa as per ASTM A240), so when the joint is pulled until it breaks, it fails in the base metal, not in the weld.
Base Metal Compatibility and P-Number Matrix for ER316L / ER316LSi / ER316H
The suitable base metals for ER316L, ER316LSi, and ER316H are listed below using ASME Section IX P-Number classifications.
| Classification |
Meaning & Composition |
Primary Purpose/Benefit |
| ER |
Electrode or Rod |
Bare solid wire for TIG, MIG, SAW, or PAW processes. |
| 316 |
18% Cr, 12% Ni, 2.5% Mo |
Standard austenitic stainless steel with molybdenum for corrosion resistance. |
| L |
Low Carbon ($\le 0.03\%$) |
Prevents carbide precipitation (sensitisation) during welding. |
| LSi |
Low Carbon + High Silicon |
Enhanced “wetting” and fluid puddle control, specifically for MIG welding. |
| H |
High Carbon ($0.04 – 0.08\%$) |
Provides superior creep strength for service temperatures above 425°C. |
Recommended Welding Parameters for ER316L / ER316LSi / ER316H Filler Wire
Here are recommended welding settings for ER316L, ER316LSi, and ER316H wires when using TIG (GTAW) and MIG (GMAW) processes.
GMAW Parameters (Ar+2%O₂, DCEP)
| Diameter |
Current (A) |
Voltage (V) |
Gas |
| 1.6 mm |
80–150 |
14–17 |
100% Ar |
| 2.4 mm |
150–250 |
15–20 |
100% Ar |
| 3.2 mm |
200–375 |
16–20 |
100% Ar |
GMAW (MIG) — Short Circuit, DCEP
| Diameter |
Current (A) |
Voltage (V) |
Gas |
| 0.8 mm |
40–120 |
16–20 |
Ar + 2% O₂ |
| 0.9 mm |
60–140 |
16–22 |
Ar + 2% O₂ |
| 1.2 mm |
100–200 |
19–24 |
Ar + 2% O₂ |
| Wire Diameter |
Current Range (Amps) |
Voltage Range (Volts) |
Shielding Gas Composition |
| 0.9 mm (0.035″) |
150 – 225 A |
23 – 26 V |
98% Ar + 2% $O_2$ |
| 1.2 mm (0.045″) |
200 – 325 A |
24 – 28 V |
98% Ar + 2% $O_2$ |
| 1.6 mm (1/16″) |
230 – 350 A |
27 – 31 V |
98% Ar + 2% $O_2$ |
No preheat needed. Keep interpass temperature below 175°C (350°F). Use stringer beads. Back-purge root passes with argon.
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Industrial Welding Applications of ER316L / ER316LSi / ER316H TIG & MIG Wire
ER316L is selected when welds must resist chloride pitting and corrosion from acids that would damage molybdenum-free 308 stainless steel welds.
Storage and Handling of ER316L / ER316LSi / ER316H Filler Wire
All three grades are bare solid wire, so moisture is not a problem. Store the wire at 15-35°C and below 60% relative humidity. Keep stainless wire completely separate from carbon steel. Cross-contamination can cause iron pick-up and failed corrosion tests. Use only dedicated stainless steel brushes and iron-free grinding or cutting discs.
Available Forms, Diameters and Packaging of ER316L / ER316LSi / ER316H Wire
Stocked forms of ER316L / ER316LSi / ER316H Wire across all three 316-type grades, in multiple diameters, and packaging options:
| Form |
Grade(s) |
Diameters |
Packaging |
| TIG Rod |
ER316L, ER316LSi, ER316H |
1.6, 2.0, 2.4, 3.2 mm |
5 kg tubes; 915/1000 mm lengths |
| MIG Spool |
ER316L, ER316LSi |
0.8, 0.9, 1.0, 1.2, 1.6 mm |
5, 12.5, 15, 25 kg spools |
| SAW Wire |
ER316L, ER316H |
1.6, 2.0, 2.4, 3.2 mm |
25 kg coils; 200–250 kg drums |
| Strip |
ER316L |
0.5×30 mm, 0.5×60 mm |
Coils |
How to Order ER316L / ER316LSi / ER316H Welding Wire from Nicorex Alloys
Provide the details below in your order:
Frequently Asked Questions