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Basic type hardfacing flux cored wire which is developed for hardfacing weld metal to resist to abrasion. Especially used for metal to metal abrasion and medium degree impacts. As the weld metal has medium degree hardness it can be machined by chip forming. It can be used for buffering layer for hardfacing of high hardness main metals. It has a smooth and calm arc characteristic. Seam formation is very straight. It is used in the welding of torque gears, gear wheels, shafts, pallet reels and crane wheels. Especially used for hardfacing of pulleys, railway rails, crossings and switch points, rollers, caterpillar track, sprockets, track links, gears, shafts, pinion gears in sugar industry, screws in oil industry, winch drums, crane wheels, mine car wheels and sheaves.

It is a basic charactered, high hardness weld metal giving, high alloyed hardfacing flux cored wire. Especially developed for hardfacing of high metal to metal abrasion and pieces which are subjected to impact. It is resistant to high impact because of toughness and crack resistance. Weld metal can be machined by diamond toe, stone and hot chip forming. High carbon and low weldability steels should be buffered with FCW 30 before welding. Especially used for hard surfacing applications of helezon leafs in brick industry and also for soil and mine hearth machine parts.

It is a basic, high hardness weld metal giving, high alloyed hardfacing flux cored wire. Especially developed for hardfacing of high metal to metal abrasion and pieces which are subjected to impact. Weld metal can retain its hardness under high temperature environment. It is resistant to high impact because of toughness and crack resistance. Weld metal can be machined by diamond toe, stone and hot chip forming. High carbon and low weldability steels should be buffered with FCW 30 before welding. Especially used for working machines ladle and teeths, plastic blender, soil and mine hearth machine parts and hardfacing of hard manganese steel.

FCH 371 is metal cored wire for high hardness wear overlay.Suitable for roll type crushers, worm conveyors, scraper blades,dipper teeth etc. The weld metal is crack resistant and highly resistant to impact and abrasion. In the case of thick overlays, it is recommended to weld only the last two overlays with FCH 371 and to use FCW 30 for the preceding passes. Machining with chip forming is not possible with this weld metal. The weld deposit contains hard phases in the form carbides.

Gas shielded, flux cored hardfacing wire which deposits Co-Cr-W alloy weld metal. Suitable to use in hardfacing of parts subjected to either the single or combined effect of heavy metal-to-metal wear or abrasion, high temperatures (ranging from 500°C to 900°C) and corrosive environments. Due to its very higher toughness and shock resistance extends its use for service conditions involving mechanical impacts and thermal shocks. Suitable for plastic extrusion screws, tools to cut paper, cardboard floor coverings, roofing, wood. Pure argon (I1) shall be used as shielding gas.

Gas shielded, flux cored hardfacing wire which deposits Co-Cr-W alloy weld metal. Suitable to use in hardfacing of parts subjected to either the single or combined effect of heavy metal-to-metal wear or abrasion, high temperatures (ranging from 500°C to 900°C) and corrosive environments. Due to its very higher toughness and shock resistance extends its use for service conditions involving mechanical impacts and thermal shocks. Suitable for blades for hot shearing, ingot tong ends, valves and valve seats, nozzles. Pure argon (I1) shall be used as shielding gas.

Gas shielded, flux cored hardfacing wire which deposits Co-Cr-W alloy weld metal. Suitable to use in hardfacing of parts subjected to either the single or combined effect of heavy metal-to-metal wear or abrasion, high temperatures (ranging from 500°C to 900°C) and corrosive environments. Due to its very higher toughness and shock resistance extends its use for service conditions involving mechanical impacts and thermal shocks. Suitable for plastic extrusion screws, tools to cut paper, cardboard floor coverings, roofing, wood. Pure argon (I1) shall be used as shielding gas.

OPEN-ARC FLUX CORED WIRE giving a 18Cr-8Ni-7Mn type austenitic stainless steel deposit. Used as a buffer layer on all steels and also for joining dissimilar steels. Due to it's very tough and crack resistant weld metal, it is advised for buffer layer applications on crack sensitive heavy parts before hardfacing layers. Some typical applications are; joining of wear plates on shovel buckets, joining of shovel dipper handle rack and rebuilding of rails, tramway rails and pres rams.

OPEN-ARC FLUX CORED WIRE for rebuilding of worn 14% manganese steel parts. Weld metal deposit is austenitic manganese steel, therefore it has got high impact resistance. Weld metal is machinable with carbide tipped tools. Some typical applications are; rebuilding of chrusher cylinders, crusher hammers, chrusher jaws, cone crusher mantles and cones, shovel bucket teeth and lips.

Excellent OPEN-ARC FLUX CORED WIRE for the rebuilding and reclamation of heavy parts made of carbon or 14% manganese steels and also for buffer layer prior to hardfacing. Machinable with carbide tipped tools. Some typical applications are railway rails and crossovers, mill shaft drive end, buffer layer on gyratory crusher mantles, re-pointing of shovel teeth, buffer layer on crawler tractor link prior to overlaying with more abrasion resistance and crack sensitive materials, rebuilding of rollers made of low alloy steels.

OPEN-ARC FLUX CORED WIRE which gives martensitic alloy. Designed to resist low stress abrasion with heavy impact and high compressive stresses. Weld metal deposit can be heat treatable, forgeable and machinable by grinding. Maximum deposit thickness is depends upon application and procedure used. Some typical applications are; hardfacing of cable sheaves, bed knives, steel mill rolls, crane wheels, forging dies, blast furnace belts.

OPEN-ARC FLUX CORED WIRE which gives excellent alloy resistant to heavy impact, gouging and grinding abrasion together with resistant to cracking. Weld metal deposit composed of a hard martensitic matrix and finely dispersed titanium carbides. It is heat treatable, forgeable and machinable by grinding. Maximum deposit thickness depends upon application and procedure used. Some typical applications are; hardfacing of crusher cylinders, crusher hammers, agricultural tools, asphalt mixer blades, shovel bucket teeth and lips, bulldozer blades, cane knives and shredders, gyratory crusher mantles, bed knives and anvil in the wood pulp industry.

This OPEN-ARC FLUX CORED WIRE, which is used in hardfacing applications, is resistant to metal-metal friction under high temperature, impact and corosion. Weld deposit is Cr,Ni,Mo,V and Nb alloyed. It is used especially in facing of continuos casting rollers.

OPEN-ARC FLUX CORED WIRE depositing high chromium alloy, designed for resisting high stress grinding abrasion with low impact. Weld metal deposit is composed of an austenitic matrix and chromium carbides. Machinable only by grinding. Especially used for hardfacing and production of wear plates.

OPEN-ARC FLUX CORED WIRE which gives alloy resistant to high stress grinding abrasion with low impact.Weld metal composed of an austenitic matrix and carbides. The deposit will readily stress relief crack. The maximum deposit thickness is 8 mm in 2 or 3 layers. Weld metal deposit is machinable only by grinding. Some typical applications are hardfacing of palm oil expeller screws, ground nut oil expeller screws, pug mill auger, catalytic pipes, screw conveyors, dredge pump impellers, shovel bucket teeth and lips, dredge cutters, wear plates in the coke industry.

OPEN-ARC FLUX CORED WIRE which is designed to give extreme resistance to high stress and gouging abrasion and achieve a very high hardness in one layer deposit. Weld metal deposit is composed of an austenitic matrix and complex carbides so, will readily stress relief check crack. Some typical applications are bucket teeth and lips on bucket-wheel excavators in coal and phosphate mines, brick and clay mill augers, wear plates and screens in the coal industry, bulldozer blades working in sand.

OPEN-ARC FLUX CORED WIRE, depositing chromium-niobium-molybdenum alloy with addition of tungsten and vanadium. Designed to resist high stress grinding abrasion and solid erosion at service temperatures up to 600°C. The deposits will readily stress relief check crack. Suitable for hardfacing wear plates, sinter plant parts, exhaust fan blades in pellet plants, pearlite crushers, bucket teeth and lips on bucket-wheel excavators in phosphate mines, boiler fan blades in sugar cane industry, burden area in blast furnace bells, wear plates in blast furnace belless top charging systems.