Home > Nickel Alloys > AWS Class ERNICRMO-14 MIG and TIG Filler Welding Wire and Rod
**Adrian Nickel Alloys**, a reputable supplier located in Pulau Ujong, Singapore, provides top-notch **AWS Class ERNiCrMo-14 MIG and TIG filler welding wire and rod**. This product is specifically designed for harsh environments that demand exceptional corrosion and thermal resistance. It’s perfect for welding nickel-based alloys used in industries like chemical processing, marine, offshore, and power generation, where exposure to aggressive substances is a regular occurrence.
**AWS ERNiCrMo-14** is a **nickel-chromium-molybdenum-tungsten alloy** filler metal suitable for both **GTAW (TIG)** and **GMAW (MIG)** welding techniques. It’s expertly crafted for welding **Hastelloy® N and other nickel alloys** that need to withstand **oxidizing and reducing chemicals, high temperatures, and corrosion from halides, acids, and salts**. This alloy is known for its excellent weldability, impressive mechanical strength, and resistance to **stress corrosion cracking, pitting, and crevice corrosion**.
| Classification | AWS A5.14, ERNICRMO-14 |
| Form | MIG spools, TIG cut lengths, Reels and Coils |
| Type Of Welding | Inert Gas Welding |
| Standard TIG straight lengths are available | 36” (914 mm) or 39” (1000 mm) lengths. Other lengths available upon request. |
| AWS ERNICRMO-14 MIG & TIG Filler Metal Application & uses |
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Adrian Nickel Alloys delivers **ERNiCrMo-14 filler wire and rods** with consistent chemistry, outstanding arc characteristics, and minimal spatter, ensuring clean and robust welds. All materials are fully certified, adhering to strict quality standards for high-integrity industrial applications.
Contact us to get a quick quote for your requirement.
AWS Class ERNiCrMo-14 MIG and TIG filler welding wire and rod are commonly used for welding high-temperature and high-strength alloys. They are ideal for applications in the aerospace, power generation, and petrochemical industries, where resistance to oxidation, corrosion, and thermal stress is crucial. This filler metal is particularly effective for joining dissimilar metals and repairing components made from heat-resistant alloys, such as those found in turbine engines and chemical processing equipment. Its exceptional weldability ensures strong, durable joints in demanding environments.
