Hard Facing

The SOS® 430 deposit is ferritic stainless steel. This open arc wire can be used as a single layer underlay for the SOS 423 wire. The wire is specifically designed for one layer underlay on continuous caster rolls, prior to the applications of the SOS 423 overlay. The wire must not be used to deposit a final overlay on continuous caster rolls. The alloy does not require a post-weld heat treatment or temper.

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 965-G is a general purpose hardfacing alloy offering a good balance of impact and abrasion resistance. Can be applied to carbon, low alloy and manganese steel. Applications would include both metal-to-metal and metal-to-earth.

A self-shielded cored wire depositing a Cr-Ni-Mo alloyed weld metal.

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 controlled mesh size into steel tubes.

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A hardfacing cored wire for rebuilding and surfacing with C1 shielding gas.

A self-shielded cored wire which gives a Cr-Ni-Mo alloyed weld metal for rail surface repair.

A specially formulated chromium carbide alloy designed to produce a high concentration of uniformly distributed small primary carbides and secondary Niobium and Vanadium carbides in an austenitic matrix. CP-2001 has been optimized for superior single and multiple layer applications and can be applied to carbon, low alloy, and manganese steels - and even cast irons in coal pulverizer rebuilds.

Stoody 100HC deposit is a high chromium-iron alloy recommended for application subject to severe abrasion and moderate impact and heat. It develops a very tight (3/8 - 1/2 inch) cross checking pattern and is frequently used in crushing applications. It is generally limited to two layers. In the rebuilding of coal pulverizer rolls, however, multiple layers can be applied using specific welding procedures. It can be applied using specific welding procedures. It can be applied to carbon, low alloy, and manganese steels.

Stoody 134 deposit is a high chromium-iron alloy recommended for applications subject to severe abrasion, moderate impact, and high compressive loads. It can be deposited on carbon, low alloy, and manganese steel.

Stoodite 6-M is the most widely used cobalt alloy with excellent resistance to many forms of mechanical and chemical degradation over a wide temperature range. Stoodite 6-M attributes include its outstanding self mated anti-galling properties, high temperature hardness, and high resistance to cavitation erosion. Certification to AWS specification - A5.21 ERCCoCr-A

A cored wire which produces a work-hardening austenitic weld metal with high wear and impact resistance. Used with C1 shielding gas or self-shielded.

A 5%Cr - 1%Mo alloyed metal cored wire for use with carbon dioxide shielding gas.

OK 13Mn is an austenitic manganese steel electrode which work hardens under impact and compressive stresses. It is primarily used for surfacing and building up manganese steel components exposed to severe impact and moderate abrasion. Typical applications include crusher plates and rolls, cones and mantles of rotary crushers etc. The interpass temperature should be kept as low as possible.

A hardfacing cored wire for rebuilding and surfacing with C1 shielding gas.

Stoody Tube Borium H Rod is a bare rod manufactured by metering special mesh sizes of tungsten carbide particles into thin tubes.

Stoody 111-O is an open arc wire that produces a austenitic chromium manganese steel deposit containing alloy carbides. Stoody 111-O deposit is used in the rebuilding of manganese steel parts subject to severe impact loading combined with abrasion. The abrasion resistance of Stoody 111-O deposit is 5-6 times superior to that of an austenitic manganese deposit as measured in the G65 test. This material offers good toughness and wear resistance, and is sometimes used as the final hardfacing layer in extreme impact situations. It can be used on carbon and manganese steels.

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 resistance in slurry type applications.

Stoody 110 deposit is a modified chromium, high manganese steel used in the rebuilding of manganese steel parts subject to severe impact loading. This material offers good toughness and wear resistance, and is sometimes used as the final hardfacing layer in extreme impact situations.

Stoodite 12-M is a more wear resistant cobalt alloy than 6-M thanks to a higher volume of carbides but with lower impact strength. Produces a high hardness cobalt-chromium deposit for high temperature applications with abrasive wear associated with corrosion. Provides excellent resistance to many forms of chemical and mechanical degradation, including galling. Stoodite 12-M bonds well with all weldable steels, including stainless. Certification to AWS specification - A5.21 ERCCoCr-B

Stoody PR2009 is a chromium carbide wire designed specifically for the repair of worn ID claddings in pipe elbows. PR2009 is optimized to result in superior weldability for overlaying pipe ID in the horizontal position. Special deoxidizers within PR2009 make it possible to achieve sound ID claddings when repairing worn chromium carbide overlays with hydrocarbon contamination embedded in existing relief cracks.

Dynamang deposit is an austenitic manganese steel containing chromium and some nickel. It produces a tough, high-strength deposit that work hardens under impact. It is primarily used for the build up, repair, and joining of manganese steel components in the cement, rock-crushing and mining industries.

Stoody M7-G deposit is a molybdenum high speed tool steel similar to AISI M7 grade.

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 controlled mesh size into steel tubes.

A general purpose hardfacing electrode depositing a semi corrosion resistant martensitic steel with a hardness of about 57 HRC. The electrode is specially suitable for hardfacing parts exposed to different forms of abrasive and impact wear, e.g. farming equipment, forestry tools, loading machines and mixers.

Stoody 966-G is a molybdenum-tungsten high speed tool steel with a high concentration of uniformly distributed small primary carbides. The presence of the small carbides greatly improve the wear resistance when compared to M-7 tool steel. Stoody 966-G provides wear resistance greater than or equal to that of conventional chromium carbides but does not cross check when proper preheat and welding procedures are used. It is recommended for parts where cross checking is undesirable. It can be applied crack free without preheat on carbon, 300 series stainless and manganese steels. Preheat and interpass temperatures shall be determined by base metal requirements. Post weld heat treatment may be required for other base metals. The deposit will crack on cast irons.

Stoody 101HWP is a chromium carbide alloy designed to generate primary carbides in the first layer. 101HWP exhibits superior wear in both single and double layer overlays in one or two layer wear plates. The alloy is optimized for superior weldability for weave and stringer bead deposits on plate.

Stoody Build-Up is a low alloy wire with deposits exhibiting excellent compressive strength and resistance to plastic deformation. Build-up is a perfect choice for use as a buffer or build up layer to be covered by subsequent overlay hardfacing. Work hardens under impact.

Stoody CP-2000 is designed to produce a high concentration of uniformly distributed small primary chromium carbides in an austenitic matrix. The formulation is optimized for superior weldability in single and multiple layer applications. CP-2000 exhibits improved wear resistance and toughness over conventional chromium carbide alloys.

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 resistance in slurry type applications.