Products
| Title | Description | Classification | Physicals | Data Sheet |
|---|---|---|---|---|
| 1 FC | Provides abrasion and corrosion resistance at high temperature and stresses. | AWS ERCCoCr-C | 50-55 Rc as welded | Data Sheet |
| 6 FC | Cobalt #6 alloy that maintains hardness at high temperatures. | AWS ECoCr-A | 42-46 Rc as welded | Data Sheet |
| 12 FC | Higher hardness and abrasion resistance than 6 FC. | AWS ERCCoCr-B | 45-50 Rc as welded | Data Sheet |
| 21 FC | Cobalt #21 alloy that maintains hardness and impact properties at high temperatures. | Co-Cr-Mo | 30-35 Rc as welded | Data Sheet |
| Title | Description | Classification | Physicals | Data Sheet |
|---|---|---|---|---|
| 6 E | Maintains wear and corrosion resistance properties at elevated temperatures. | AWS ECoCr-A | 42-46 Rc as welded | Data Sheet |
| 21 E | For overlays subjected to heat and impact at high temperatures. Weld metal also provides good crack resistance. | Co-Cr-Mo | 28-33 Rc as welded | Data Sheet |
| 2101 E | Offers superior resistance to heat checking, spalling, chipping and erosion over our 21 alloy | Co-Cr-Mo-Cb | 33-38 Rc as welded 45+ Rc work hardened | Data Sheet |
| 4130 E | Responds to 4130 quench and temper. Used as a flame hardening alloy. | AISI 4130 type | Flame hardens to Rc | |
| 4130LN E | Modified 4130 with a less than 1% Nickel to improve resistance cracking. Welds 4130 and 4140 alloys. | AISI 4130 modified | Heat Treatable | Data Sheet |
| 4140 E | Responds to 4140 quench and temper. Used as a flame hardening tool. | AISI 4140 type | Flame hardens to 56 Rc | |
| 4340 E | Used for the repair of 4340 base metal. | AISI 4340 type | Heat Treatable | |
| F15 E | A very tough alloy for use in the repair of columns and cylinders and other areas subject to cracking. | Fe-Ni-Cr-Mo 6% alloy | 15-20 Rc as welded 115,000 psi tensile | Data Sheet |
| F25 E | This alloy is used to buildup worn areas subject to high impact and compressive loads such as rams, sow blocks and shanks. | Fe-Ni-Cr-Mo 8% alloy | 25-30 Rc as welded 132,000 psi tensile | Data Sheet |
| F35 E | For reclamation of hammer die impressions. This alloy is similar in wear properties to die block with a number 2 temper. | Fe-Ni-Cr-Mo 10% alloy | 32-37 Rc as welded 165,000 psi tensile | Data Sheet |
| F40 E | For hammer die impressions when more abrasion resistance is needed than F35 FC provides. | Fe-Ni-Cr-Mo 12% alloy | 38-43 Rc as welded 182,000 psi tensile | Data Sheet |
| F45 E | For shallow hammer and press die impressions. | Fe-Ni-Cr-Mo 14% alloy | 42-47 Rc as welded 186,000 psi tensile | Data Sheet |
| F54 E | Provides machinable deposit for press die applications. | 5% Cr Hot Work | 38-42 Rc as welded | Data Sheet |
| F58 E | A 5% Cr hot work alloy for press dies. | AISI H-12 | 51-56 Rc as welded | Data Sheet |
| F63 E | For shallow hammer dies with high duty cycles and press dies subjected to high heat and stresses when a machinable deposit is required. | 9% Cr Hot Work | 42-46 Rc as welded | Data Sheet |
| F64 E | For use on press dies subjected to high heat and stresses. | 11% Cr Hot Work | 48-53 Rc as welded | Data Sheet |
| F65 E | For shallow hammer dies with high duty cycles and press dies subjected to high heat and stresses. | 9.5% Cr Hot Work | 49-52 Rc as welded | Data Sheet |
| F110 E | Used for overlaying of forging dies and components subject to high temperatures and impacts. | AWS ENiCrMo-5 | 100,000 psi tensile min. 20 Rc as welded | Data Sheet |
| F111 E | An excellent underlayment for harder nickel base alloys on high temperature forging dies. | Modification of AWS ENiCrMo-5 | 20 Rc as welded 40 Rc workhardened | Data Sheet |
| F112 E | For forging surfaces exposed to high temperatures and long contact times. | Modification of AWS ENiCrMo-3 | 110,000 psi tensile 30% Elongation min. | Data Sheet |
| F580 E | A higher alloy version of F58 that withstands higher service temperatures without softening. | AISI H-12 type with higher W and MO | 52-57 Rc as welded | Data Sheet |
| Title | Description | Classification | Physicals | Data Sheet |
|---|---|---|---|---|
| 6 FC | Cobalt #6 alloy that maintains hardness at high temperatures. | AWS ECoCr-A | 42-46 Rc as welded | Data Sheet |
| 21 FC | Cobalt #21 alloy that maintains hardness and impact properties at high temperatures. | Co-Cr-Mo | 30-35 Rc as welded | Data Sheet |
| 2101 FC | Offers superior resistance to heat checking, spalling, chipping and erosion over our 21 alloy. | Co-Cr-Mo-Cb | 35-38 Rc as welded 45+ Rc work hardened | Data Sheet |
| F15 FC | A very tough alloy for use in repair of columns and cylinders and other areas subject to cracking. | Fe-Ni-Cr-Mo 6% alloy | 15-20 Rc as welded 115,000 psi tensile | Data Sheet |
| F25 FC | This alloy is used to buildup worn areas subject to high impact and compressive loads such as rams, sow blocks and shanks. | Fe-Ni-Cr-Mo 8% alloy | 25-30 Rc as welded 132,000 psi tensile |
Data Sheet
Temp.Chart |
| F35 FC | For reclamation of hammer die impressions. This alloy is similar in wear properties to die block with a number 2 temper. | Fe-Ni-Cr-Mo 10% alloy | 35-40 Rc as welded 165,000 psi tensile |
Data Sheet
Temp.Chart |
| F40 FC | For hammer die impressions when more abrasion resistance is needed than F35 FC provides. | Fe-Ni-Cr-Mo 12% alloy | 38-43 Rc as welded 182,000 psi tensile |
Data Sheet
Temp.Chart |
| F45 FC | For shallow hammer and press die applications. | Fe-Ni-Cr-Mo 14% alloy | 42-47 Rc as welded 186,000 psi tensile |
Data Sheet
Temp.Chart |
| F54 FC | Provides machinable deposit for press die applications. | 5% Cr Hot Work | 38-42 Rc after 1050˚F temper for 10 hours |
Data Sheet
Temp.Chart |
| F58 FC | A 5% Cr Hot Work alloy for press dies. | AISI H-12 | 50-55 Rc as welded |
Data Sheet
Temp.Chart |
| F59 FC | Used to repair and rebuild tools and dies subject to heat checking from cycling temperatures in operation. | AISI H-13 | 52-57 Rc as welded |
Data Sheet
Temp.Chart |
| F63 FC | For shallow hammer dies with high duty cycles and press dies subjected to high heat and stresses when a machinable deposit is required. | 9% Cr Hot Work | 38-42 Rc after 1050˚F temper for 10 hours |
Data Sheet
Temp.Chart |
| F64 FC | For use on press dies subjected to high heat and stresses. | 11% Cr Hot Work | 48-53 Rc as welded |
Data Sheet
Temp.Chart |
| F65 FC | For shallow hammer dies and high cycles and press dies subjected to high heat and stresses. | 9.5% Cr Hot Work | 49-52 Rc after temper at 1000˚F |
Data Sheet
Temp.Chart |
| F110 FC | Used for overlaying of forging dies and components subject to high temperatures and impacts. | AWS ENiCrMo-5 | 100,000 psi tensile min. 20-25 Rc as welded | Data Sheet |
| F111 FC | An excellent underlayment for harder nickel base alloys on high temperature forging dies. | Modification of AWS ENiCrMo-4 | <20 Rc as welded 35+ Rc peened | Data Sheet |
| F112 FC | For forging surfaces exposed to high temperatures and long contact times. | Modification of AWS ENiCrMo-3 | 100,000 psi tensile 30% Elongation min. | Data Sheet |
| F114 FC | For overlay of rotary forging dies subjected to high temperatures and stresses. | Modified UDIMET®520 | 25-30 Rc as welded 35+ Rc work hardened | Data Sheet |
| F115 FC | For overlay of rotary forging dies subjected to high temperatures and stresses. | Modified UDIMET®520 | 30-35 Rc as welded 40+ Rc work hardened | Data Sheet |
| F116 FC | For overlay of rotary forging dies subjected to high temperatures and stresses. | Modified UDIMET®520 | 35-40 Rc as welded 45+ Rc work hardened | Data Sheet |
| F580 FC | A higher alloy version of F58 that withstands higher service temperatures without softening. | AISI H-12 | 53-58 Rc as welded |
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| F581 FC | A flux-cored, H-12 hot work alloy with increased wear resistance vs. F58 and increased crack resistance vs. F580. | AISI H-12 | 52-54 Rc after temper at 1000˚F |
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Temp.Chart |
| F1122 FC | For high temperature forging equipment such as extrusion dies and mandrels. Designed for applications requiring strength and oxidation resistance. | Modification of AWS ENiCrMo-3 | 100,000 psi tensile 30% Elongation min. | Data Sheet |
| 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 |
| Title | Description | Classification | Physicals | Data Sheet |
|---|---|---|---|---|
| 4130 FC | Responds to 4130 quench and temper. Also used as a flame-hardening alloy. | AISI 4130 type | Dependent on heat treatment, flame hardens to 52 Rc | Data Sheet |
| 4140 FC | Responds to 4140 quench and temper. Also used as a flame-hardening alloy. | AISI 4140 type | Dependent on heat treatment, flame hardens to 58 Rc | Data Sheet |
| 4340 FC | For repair of 4340 when weld metal must respond to same type of heat-treatment. | AISI 4340 type | Dependent on heat treatment, flame hardens to 58 Rc | Data Sheet |
| 6150 FC | Responds to 6150 quench and temper. Mostly used for flame hardening properties. | AISI 6150 type | Dependent on heat treatment flame hardens to 62 Rc | |
| 8620 FC | For Repair of 8620 when weld metal must respond to same type of heat-treatment. | AISI 8620 type | Dependent on heat treatment | Data Sheet |
| Title | Description | Classification | Physicals | Data Sheet |
|---|---|---|---|---|
| 11 FC | Lower cost nickel containing alloy used to repair cast iron. | Fe-Ni-Cr 14% alloy | 30-35 Rc as welded | Data Sheet |
| 33 FC | 33% Ni alloy used to buildup cast iron and to join cast iron to steel. | Fe-Ni-Mn 38% alloy | 15-20 Rc as welded | Data Sheet |
| 55 FC | 53% Ni alloy used to join and repair cast iron. | Ni-Fe-Mn 56% alloy | 15-20 Rc as welded | Data Sheet |
| 68 FC | Versatile alloy for joining a variety of tool steels. Retains hardness after tempering when used on alloy steel. | Fe-Cr-Ni 15% alloy | 40 Rc as welded 160,000 psi tensile. | Data Sheet |
| 99 MC | 99% Ni alloy for joining and overlay of cast iron. | 99% Ni | 160 BHN as welded | Data Sheet |
| 712 FC | High Strength and corrosion resistant alloy used for joining dissimilar metals. | Fe-Cr-Ni-Mo 40% alloy | 20 Rc as welded 120,000 psi tensile. | |
| 3301 FC | 36% Ni alloy used to buildup cast iron and to join cast iron steel. | Fe-Ni-Mn 42% alloy | 15-20 Rc as welded | Data Sheet |
| 4130 FC | Responds to 4130 quench and temper. Also used as a flame-hardening alloy. | AISI 4130 type | Dependent on heat treatment, flame hardens to 52 Rc | Data Sheet |
| 4140 FC | Responds to 4140 quench and temper. Also used as a flame-hardening alloy. | AISI 4140 type | Dependent on heat treatment, flame hardens to 58 Rc | Data Sheet |
| 4340 FC | For repair of 4340 when weld metal must respond to same type of heat-treatment. | AISI 4340 type | Dependent on heat treatment, flame hardens to 58 Rc | Data Sheet |
| 6150 FC | Responds to 6150 quench and temper. Mostly used for flame hardening properties. | AISI 6150 type | Dependent on heat treatment flame hardens to 62 Rc | |
| 8620 FC | For Repair of 8620 when weld metal must respond to same type of heat-treatment. | AISI 8620 type | Dependent on heat treatment | Data Sheet |
| F15 FC | A very tough alloy for use in repair of columns and cylinders and other areas subject to cracking. | Fe-Ni-Cr-Mo 6% alloy | 15-20 Rc as welded 115,000 psi tensile | Data Sheet |
| F25 FC | This alloy is used to buildup worn areas subject to high impact and compressive loads such as rams, sow blocks and shanks. | Fe-Ni-Cr-Mo 8% alloy | 25-30 Rc as welded 132,000 psi tensile |
Data Sheet
Temp.Chart |
| F35 FC | For reclamation of hammer die impressions. This alloy is similar in wear properties to die block with a number 2 temper. | Fe-Ni-Cr-Mo 10% alloy | 35-40 Rc as welded 165,000 psi tensile |
Data Sheet
Temp.Chart |
| Title | Description | Classification | Physicals | Data Sheet |
|---|---|---|---|---|
| ENiCu-7 FC | Used for joining dissimilar alloys including nickel-copper alloys, carbon steel, low alloy steel, MONEL® 400, R-405, and K-500, and copper alloys. | AWS ENiCu-7 | 70,000 psi tensile min. 30% Elongation min. | Data Sheet |
| ENiMo-7 FC | Can combat corrosion especially in the chemical industry. High Moly content offers protection against pitting & crevice corrosion. | AWS ENiMo-7 | 110,000 psi tensile min. 25% Elongation min. | |
| N22 FC | Used to join & repair NiCrMo alloys. Will resist stress corrosion cracking, localized corrosion and oxidizing & reducing chemicals and atmospheres. | AWS ENiCrMo-10 | 100,000 psi tensile min. 25% Elongation min. | Data Sheet |
| N82 FC | Used for joining Ni-Cr-Fe alloys and for dissimilar alloys such as stainless, MONEL® , and carbon steels. Especially suited of overlay. | AWS ERNiCr-3 | 80,000 psi tensile min. 30% Elongation min. | Data Sheet |
| N100A | Used for joining Ni-Cr-Fe alloys and dissimilar alloys such as stainless, 9% nickel, and carbon steel. | AWS ENiCrFe-2 | 80,000 psi tensile min. 30% Elongation min. | Data Sheet |
| N102 FC | For welding nickel-chrome-molybdenum alloys including Hastelloy X. | AWS ENiCrMo-2 | 114,000 psi tensile min. 43% Elongation min. | Data Sheet |
| N117 FC | Used for applications where optimum strength and oxidation resistance are required above 1500°F up to 2100°F when welding on nickel-chrome -moly alloys. | AWS ENiCrCoMo-1 | 90,000 psi tensile min. 25% Elongation min. | Data Sheet |
| N182 FC | Use for joining Ni-Cr-Fe alloys and for surfacing steel and joints in clad steels. | AWS ENiCrFe-3 | 80,000 psi tensile min. 30% Elongation min. | Data Sheet |
| N276 FC | This alloy has excellent resistance to corrosion, also oxidation at high temperatures. | AWS ENiCrMo-4 | 100,000 psi tensile min. 25% Elongation min. | Data Sheet |
| N625L FC | Used for joining Ni-Cr-Mo alloys and other nickel alloys for service conditions that require high strength and corrosion resistance. | AWS ERNiCrMo-3 | 100,000 psi tensile min. 30% Elongation min. | Data Sheet |
| N718 FC | Maintains excellent tensile strength up to 1400˚F, and will resist oxidation and strain-age cracking. Designed for overlay applications. | Inconel® 718 | Solution treated and age hardened | Data Sheet |
| Title | Description | Classification | Physicals | Data Sheet |
|---|---|---|---|---|
| 91A FC | Modified AISI 420 Stainless Steel | Modified 420 | Data Sheet | |
| 300 Series Gas Shielded | AWS A5.22 where applicable | Data Sheet | ||
| 300 Series Open Arc | AWS A5.22 where applicable | Data Sheet | ||
| 308(L) FC | AWS A5.22, CLASS E308(L) | |||
| 309(L) FC | AWS A5.22, CLASS E309(L) | |||
| 310 FC | AWS A5.22, CLASS E310 | |||
| 312 FC | AWS A5.22, CLASS E312 | |||
| 316(L) FC | AWS A5.22, CLASS E316(L) | |||
| 317(L) FC | AWS A5.22, CLASS E317(L) | |||
| 320 FC | AWS A5.4, CLASS E320 | |||
| 330 FC | AWS A5.4, CLASS E330 | |||
| 347 FC | AWS A5.22, CLASS E347 | |||
| 410 FC | AWS A5.22, CLASS E410 | Data Sheet | ||
| 410NiMo FC | AWS A5.22, CLASS E410NiMo | Data Sheet | ||
| 420 FC | AISI 420 | Data Sheet | ||
| 430 FC | AWS A5.22, CLASS E430 | Data Sheet | ||
| 502 FC | AWS A5.22, CLASS E502 | Data Sheet | ||
| 630 FC | E630, 17-4 PH | Data Sheet | ||
| 904L FC | AWS A5.4, CLASS E385-XX | Data Sheet | ||
| 2209 FC | E2209T0-3 Duplex Stainless | Data Sheet | ||
| 2553 FC | E2553T0-3 Duplex Stainless | Data Sheet | ||
| E80T5-B6 | AWS A5.29-98, CLASS E80T5-B6 | Data Sheet | ||
| E80T5-B8 | AWS A5.29-98, CLASS E80T5-B8 | Data Sheet |
| Title | Description | Classification | Physicals | 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 |
| 420 SWT | A 400 series martinsitic stainless used for mold and die repair, and repair of 420 stainless. | AISI 420 | 51-54 Rc as welded | |
| 4130 SWT | Can be used for the repair of 4130 alloys. Can be flame hardened to 50+ Rc. | AISI 4130 | 30-35 Rc as welded | |
| 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 |
| A-2 SWT | For repair and fabrication of air hardening grades of tool steel. Can be used on extrusion dies, blanking dies, punches and trim dies. | AISI A-2 | 50-55 Rc as welded | |
| D2 MC | A metal-cored, air hardening AISI D2 alloy available in gas shielded, and TIG wires. The weld deposit is fully heat treatable. | AISI D2 | 38-42 as welded 58-62 Rc heat-treated | Data Sheet |
| F54 SWT | Machinable 5% Chrome hot work tool steel. Very suitable for die casting dies, extrusion dies and forging dies. | 5% Cr hot work tool steel | 30-35 Rc as welded | |
| H-12 SWT | Excellent all purpose alloy for hot and cold working tools. This 5% chrome alloy is a good choice for hot and cold trim dies, shear knives, punches and forging dies. | AISI H-12 | 53-57 Rc as welded | |
| H12 MC | A metal-corded, H-12 hot work alloy designed to provide wear resistant deposits. This alloy performs especially well when rebuilding worn edges of hot trim dies. | AISI H-12 | 50-55 Rc as welded | Data Sheet |
| M-2 SWT | AISI M2 tool steel. For repair of M2 and D2 tool steel. Used in forming dies, knives, shear blades and drills. | AISI M2 | 60-64 Rc as welded | |
| M-250 SWT | Maraging 250 alloy. This alloy generates deposits that are 30-32 Rc and machinable as welded. Age hardening at 950˚F will increase hardness up to 49-51 Rc. Yield Strength of 250,000 psi. | UNS# K92890 ASTM A538/A53M (B) | 30-32 Rc as welded | |
| P-20 SWT | AISI P-20 alloy for repair of plastic molds where a color match is needed. Tempers to 30-35 Rc. | AISI P-20 | 30-40 Rc as welded | |
| S-7 SWT | Shock resistant tool steel that is a "bearcat" on cold applications. Excellent for fabrication and repair of cold working tools including trim dies, cold shear knives and punches. | AISI S-7 | 54-57 Rc as welded | |
| S7 MC | A metal-cored, shock resistant AISI S-7 alloy, and is available in gas shielded, and TIG wires. | AISI S-7 | 54-58 Rc as welded | Data Sheet |
| T67 MC-T | This alloy is an excellent choice for touching up flash lines that see excessive wear at high heats. | AISI H19 | 50-55 Rc as welded |