Arc Gouging (CAC-A) & Exothermic
Welding Automation &
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An AC/DC electrode for heavy impact and abrasion on carbon and manganese steels. Hardness up to 54-56 Rockwell C. Can be used with low voltage machines.
All-State Ni-Matrix® has a low hydrogen coating and will deposit austenitic weld metal that is|high in ductility and strength. The welds provide excellent resistance to heavy impact and|compressive loads.
Metal-cored, gas-shielded, Argon/CO2 75/25 or Argon Oxygen 98/2 hard-surfacing wire. Tough, shock resistant, tool steel type wire offers good corrosion resistance, excellent metal-to-metal wear and abrasion characteristics.
Provides extremely good earth abrasion resistance. May be applied to steels, stainless steels, manganese steels, and cast iron. Wire runs through rust and other surface contaminants, and will operate in conditions where wind may blow shielding away.
Deposits hard tungsten carbides in a tough nickel-silver matrix for maximum abrasion resistance and superior cutting action.
Stoody 140 wire consists of tungsten carbide particles in a nickel chrome boron matrix. This microstructure gives Stoody 140 superior toughness, corrosion and excellent fine particle erosion resistanc ... [Read more]
Stoody 155FC wire consists of tungsten carbide particles in a nickel silicon boron matrix. Designed for multiple pass operations where cross checking is undesirable. Stoody 155FC deposits are ideal when thicker nickel, silicon, boron tungsten carbide weld deposits are desired.
Stoody 160 wire consists of tungsten carbide particles in a nickel silicon boron matrix. This microstructure gives Stoody 160 superior toughness, corrosion and excellent fine particle erosion resistan ... [Read more]
Stoody 160-E coated electrode consists of tungsten carbide particles in a nickel silicon boron matrix. This microstructure gives Stoody 160-E sufficient toughness, extreme abrasion resistance, and exc ... [Read more]
Stoody 160FC wire deposit consists of tungsten carbide particles in a nickel silicon boron matrix. Due to higher tungsten carbide content, Stoody 160FC is an ideal hardfacing overlay with a microstructure that delivers superior toughness and resistance to corrosion and fine particle erosion in slurry type applications.
Stoody AC-DC Borod coated electrode is used for metal-to-earth applications requiring extreme abrasion resistance and low impact resistance. It is similar to Stoody AC-DC Tube Borium in all respects except that the mesh size is finer (40 - down) to provide deposits resembling fine grit sandpaper.
Stoody AC-DC Tube Borium coated electrode is manufactured by metering crushed tungsten carbide particles of controlled mesh size into steel tubes. It receives a thin graphitic coating.
Bare Acetylene Tube Borium is an oxy-fuel rod intended for metal-to-earth applications involving extreme abrasion and low impact. It is manufactured by metering crushed tungsten carbide particles of c ... [Read more]
Stoody Bare Borod hardfacing rod is used for metalto-earth applications requiring extreme abrasion resistance and low impact resistance. It is similar to Stoody Bare Acetylene Tube Borium in all respects except that the mesh size is finer (40-down) to provide deposits resembling fine grit sandpaper.
Stoody Horseshoe Borium was developed to provide a maximum non-slipping surface when applied to horseshoes. It is manufactured by metering relatively large tungsten carbide particles into steel.
Stoody Tube Borium H Rod is a bare rod manufactured by metering special mesh sizes of tungsten carbide particles into thin tubes.
Stoody Vancar E is a coated fabricated electrode that contains specially formulated vanadium tungsten carbide particles approximately equal to tungsten carbide in hardness but at only half the density.