Corrosion Materials journey spans over six decades, marked by a commitment of excellence in providing quality corrosion-resistant alloys. We stand proud as a reliable and trusted source, offering durable materials that cater to the unique needs of our customers’ diverse applications.
Explore Our Corrosion-Resistant Alloys Portfolio
Our extensive range of corrosion-resistant alloys are designed to endure harsh environments, ensuring longevity and optimal performance for critical applications. Take a closer look at the alloys that have defined our legacy:
OUR CORROSION-RESISTANT ALLOYS
Below are some of the key features of each alloy we stock.
- A solid solution strengthened nickel-molybdenum-chromium alloy with a small amount of tungsten.
- Higher molybdenum content allows for better resistance to reducing media and improves resistance to pitting and crevice corrosion.
- Exceptional corrosion resistance in harsh environments and various media.
- Ductile, easily formed, and weldable.
- Excels in aggressive chemical environments where other alloys may fail.
- Fully austenitic, nickel-chromium-molybdenum-tungsten alloy.
- High chromium content for resistance to oxidizing media.
- Molybdenum and tungsten provide resistance to reducing media.
- Particularly useful in applications with mixed acids.
- Solid solution strengthened, nickel-molybdenum alloy.
- Used in extreme reducing conditions.
- Less susceptible to weld zone corrosion compared to Alloy B in the as-welded condition.
- Solid solution strengthened, highly alloyed nickel – molybdenum alloy.
- Excellent resistance to hydrochloric acid and other non-oxidizing media.
- Superior thermal stability compared to its predecessors, e.g., B-2 alloy.
- Solid solution strengthened, commercially pure wrought alloys.
- Nickel 201 has lower carbon content, making it resistant to graphitization and embrittlement.
- Solid solution nickel copper alloy with excellent resistance to a wide variety of corrosive media.
- Superior resistance to corrosive environments across a wide temperature range.
- Hardenable through cold working, slightly magnetic at room temperature.
- Nickel copper alloy similar in composition to alloy 400 except alloy 405 has increased sulfur. This chemical composition difference allows 405 to be more easily machined in automated processes.
- Similar corrosion resistance to Alloy 400, with slight differences in mechanical properties.
- Slightly magnetic at room temperature.
- Commonly known as “K-MONEL®.”
- Precipitation hardenable, nickel-copper alloy with corrosion resistance similar to Alloy 400.
- Greater strength and hardness with subsequent heat treatment.
- Low magnetic permeability over a wide temperature range.
- Nickel-chromium-molybdenum alloy with high strength, toughness, and excellent corrosion resistance.
- The addition of niobium and tantalum in the alloy stabilizes the alloy against the formation of carbides in the heat affected zone during welding.
- Can be solution annealed to further improve creep and higher temperature resistance.
- Nickel-chromium-iron alloy with solid solution strengthening.
- Corrosion and elevated temperature resistance, service temperatures ranging from cryogenic to 2000°F.
- Two solid solution strengthened iron-nickel-chromium alloys.
- Typically offered as one dual-certified alloy with enhanced creep and stress rupture properties.
- A highly alloyed austenitic stainless steel with high nickel content and stabilized by the addition of niobium.
- Excellent corrosion resistance in chemical environments.
- Potential cost savings compared to higher nickel-based alloys, outperforming standard stainless steels.
- Highly alloyed super duplex stainless steel with the addition of copper.
- The addition of copper provides this alloy with improved resistance to pitting in corrosive environments.
- High strength, wear resistance, and superior corrosion resistance compared to 316 stainless steel.
- Cobalt-based alloy with exceptional wear, erosion, and abrasion resistance.
- Low coefficient of friction resists seizing and galling, suitable for applications with challenging lubrication conditions.
- Commercially pure (99% minimum titanium).
- Lightweight, exceptionally corrosion resistant, exceeding stainless steel corrosion resistance.
- Preferred titanium alloy for industrial applications requiring good ductility and corrosion resistance.
800HT® is a registered trademark of Special Metals Corporation, a PCC Company. B3® is a registered trademark of Haynes International, Inc.
Why Choose Corrosion Materials for Corrosion-Resistant Alloys?
Proven Expertise
With a rich history spanning six decades, we bring unparalleled expertise to address your unique corrosion-resistant alloy needs. Our experience sets us apart as a trusted partner in the industry.
Quality Assurance
At Corrosion Materials, we adhere to the highest quality standards and rigorous testing procedures. Our commitment to quality ensures that the alloys we provide stand the test of time, offering durability and reliability for your projects.
Comprehensive Alloy Selection
Our extensive inventory features a diverse array of corrosion-resistant alloys, catering to a wide range of industries and applications. Whatever your specific requirements, we have the alloys to meet your needs.
Whether you are in chemical processing, oil & gas, marine, or other industries requiring corrosion-resistant alloys, Corrosion Materials is your partner in success. Contact us today or visit our website to explore our complete range of alloys. Trust us to be your corrosion-resistant alloy specialist – where excellence meets quality.