Hardfacing

Title Description Classification Physicals Data Sheet
10V FC A Vanadium Carbide alloy that has excellent resistance to fine particle abrasion. Vanadium Carbide 60 Rc as welded Data Sheet
52 FC For overlay of components subject to abrasion, impact and high compressive loads. 5% Hot Work Similar to H-12 52-57 Rc as welded Data Sheet
62 FC Used to repair and reclaim AISI M-1 and M-2 high-speed tool steels. Also used to build composite parts, or give a M2 wear surface on a less expensive base material. AISI M-2 tool steel 59-63 Rc as welded Data Sheet
84 MC Ni base alloy to resist corrosion and high stress metal to metal wear at room temperature and elevated temperatures. Used for overlay of plastic extrusion equipment. AWS A5.21, ERCNiCr-A 35-45 Rc 1-2 pass as welded Data Sheet
85 MC Similar to 84 MC but offers higher hardness AWS A5.21, ERCNiCr-B 40-50 Rc 1-2 pass as welded Data Sheet
86 MC Higher hardness than 85 MC. Used for screw flight conveyors. AWS A5.21, ERCNiCr-C 50-60 Rc 1-2 pass as welded Data Sheet
92 FC High carbon, High chrome for severe abrasion. Cross checks every ~1/2" when deposited. Fe-Cr-C 34% alloy 50-55 Rc 1 pass 55-60 Rc 2+ passes Data Sheet
92B FC Metal-cored, hardfacing alloy designed to resist severe abrasion combined with mild impact applications such as earth moving, crushing, drilling and grinding equipment. Fe-Cr-C-B 60-65 Rc as welded Data Sheet
95 FC Provides a tough deposit that withstands impact as well as an excellent buildup for abrasion resistant alloys. Fe-Mn-Ni-Cr 20% alloy 20 Rc as welded 45+ Rc work hardened 120,000 psi tensile Data Sheet
97A FC High Hardness Cr Ni Moly alloy that offers excellent resistance to heat, impact and metal to metal wear. Fe-Cr-Mo-Ni 48-52 Rc as welded 55+ Rc work hardened Data Sheet
160 MC Tungsten Carbide tubular wire for maximum resistance to abrasion. Tungsten Carbide Fe base 2600 Knoop WC particles Data Sheet
161 MC Designed to combat abrasion and corrosion at ambient temperatures. WC in a 430 SS steel matrix 2600 Knoop WC particles Data Sheet
162 MC Designed to combat abrasion and corrosion at ambient temperatures. WC in a 304 SS matrix 2600 Knoop WC particles Data Sheet
163 MC Tungsten carbide particles in a crack free deposit WC in a Ni matrix 2600 Knoop WC particles 38-42 Rc matrix hardness Data Sheet
164 MC Designed to combat abrasion and corrosion at ambient or elevated temperatures WC in a NiCrBSi matrix 2600 Knoop WC particles 38-42 Rc matrix hardness Data Sheet
6201 FC High hardness weld deposit with minimal cracking that withstands severe abrasion. AISI M-1 tool steel 59-63 Rc as welded Data Sheet
9235 FC Economical alloy that provides good abrasion resistance and can be built up without spalling. Fe-Cr-Si 12% alloy 50-55 Rc as welded Data Sheet
9237 FC Flux-cored, hardfacing alloy designed to resist severe abrasion for applications such as sinter claw crushers, sieves, hard banding of drill pipes, and cement kilns. Fe-Cr-Nb-C 55-60 Rc as welded Data Sheet
9240 FC Designed to resist severe abrasion without cracking. Used to hardface items where weld bead crosschecks are not permissible Fe-Cr-C 39-42 Rc as welded Data Sheet
9250 FC Medium carbon. Medium chrome alloy that works well for abrasion and impact. Fe-Cr-C 22% alloy 50-54 Rc as welded Data Sheet
9260 FC High Carbon, High chrome for severe abrasion. Less chrome and more carbon than 92 FC. Fe-Cr-C 29% alloy 58-61 Rc as welded Data Sheet
9262 FC Flux-cored, hardfacing alloy designed to resist severe abrasion. The weld deposit is loaded with CrC and large NbC. Fe-Cr-Nb-C 60+ Rc as welded Data Sheet
9263 FC Abrasion resistance attributable to its chromium, molybdenum, and tungsten carbides. Fe-Cr-Mo-W-C 60+ Rc as welded Data Sheet
9264 FC Martensitic matrix with Titanium and Boron carbides. An economical alloy with high hardness. Fe-Cr-Mo-Ti-B 60-65 Rc as welded Data Sheet
9265 FC Complex carbide for extreme abrasion resistance. This is an economical substitute for Tungsten carbide. Fe-Cr-W-Cb-Mo 40% alloy 63-68 Rc as welded Data Sheet
9544 FC Weld metal that workhardens rapidly to resist impact and abrasion. Can withstand high heat input without embrittlement. Fe-Cr-Mn 35% alloy 20 Rc as welded 45+ Rc work hardened 140,000 psi tensile Data Sheet