Arcmelt

Complex Metal Alloys withstand severe environments.

Used to form Overlay Composite Structures (OCS), complex metal alloys can subsidize or replace protective metal welds and extrusions found in environments subject to extreme heat, corrosion, and wear. Multiple metal and non-metal powders with other elements are custom-engineered into high-performance alloys designed to overcome limitations of binary and ternary alloys. One such OCS material, used...

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Complex Metal Alloys withstand severe environments.

Used to form Overlay Composite Structures (OCS), complex metal alloys can subsidize or replace protective metal welds and extrusions found in environments subject to extreme heat, corrosion, and wear. Multiple metal and non-metal powders with other elements are custom-engineered into high-performance alloys designed to overcome limitations of binary and ternary alloys. One such OCS material, used...

Read More »

Complex Metal Alloys withstand severe environments.

Used to form Overlay Composite Structures (OCS), complex metal alloys can subsidize or replace protective metal welds and extrusions found in environments subject to extreme heat, corrosion, and wear. Multiple metal and non-metal powders with other elements are custom-engineered into high-performance alloys designed to overcome limitations of binary and ternary alloys. One such OCS material, used...

Read More »

Complex Metal Alloys withstand severe environments.

Used to form Overlay Composite Structures (OCS), complex metal alloys can subsidize or replace protective metal welds and extrusions found in environments subject to extreme heat, corrosion, and wear. Multiple metal and non-metal powders with other elements are custom-engineered into high-performance alloys designed to overcome limitations of binary and ternary alloys. One such OCS material, used...

Read More »

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