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High efficiency electrode for joining dissimilar steels and depositing claddings on ferritic steels. The weld metal consists of austenitic Cr-Ni-Mn steel with possible small amounts of delta ferrite. It is non-scaling up to +850°C. The weld metal is highly crack resistant and therefore suited for joining difficult to weld steels and depositing stress relaxing buffer layers on crack sensitive base metal or underneath hardfacing deposits. Weld metal work hardens. Possible to use equally well both with AC and DC. High current carrying capacity due to it's low alloy steel core wire. Highest operating temperature for dissimilar steel joints is +300°C.

High efficiency electrode for joining dissimilar steels and depositing claddings on ferritic steels. The weld metal consists of austenitic Cr-Ni-Mn steel with possible small amounts of delta ferrite. It is non-scaling up to +850°C. The weld metal is highly crack resistant and therefore suited for joining difficult to weld steels and depositing stress relaxing buffer layers on crack sensitive base metal or underneath hardfacing deposits. Weld metal work hardens. Possible to use equally well both with AC and DC. High current carrying capacity due to it's low alloy steel core wire. Highest operating temperature for dissimilar steel joints is +300°C. In the case of higher temperatures, use ENI 422 electrodes.

High efficiency electrode for joining dissimilar steels and depositing claddings on ferritic steels. The weld metal consists of austenitic Cr-Ni-Mn steel with possible small amounts of delta ferrite. It is non-scaling up to +850°C. The weld metal is highly crack resistant and therefore suited for joining difficult to weld steels and depositing stress relaxing buffer layers on crack sensitive base metal or underneath hardfacing deposits. Weld metal work hardens. Possible to use equally well both with AC and DC. High current carrying capacity due to it's low alloy steel core wire. Highest operating temperature for dissimilar steel joints is +300°C.

Electrode particularly designed for welding armour plates, dissimilar steels and for surfacing purposes. The weld metal consists of austenitic Cr-Ni-Mn stainless steel. It features high resistance to cracking caused by impact and high temperature and is therefore indicated for difficult to weld steels and depositing stress relaxing buffer layers on crack sensitive base metal or beneath hardfacing deposits. Use with DCEP. No pre-heat or post welding heat treatment is needed when welding armour plates. Interpass temperature should not exceed 120°C. Shall be used with shortest possible stick-out distance at 90° angle to the work piece.

Electrode particularly designed for welding armour plates, dissimilar steels and for surfacing purposes. The weld metal consists of austenitic Cr-Ni-Mn-Mo stainless steel. It features high resistance to cracking caused by impact and high temperature and is therefore indicated for difficult to weld steels and depositing stress relaxing buffer layers on crack sensitive base metal or beneath hardfacing deposits. Use with DCEP. No pre-heat or post welding heat treatment is needed when welding armour plates. Interpass temperature should not exceed 120°C. Shall be used with shortest possible stick-out distance, at 90° angle to the work piece.

Electrode for welding austenitic stainless Cr-Ni steels or cast steels, having an extra low carbon content, as well as stainless or heat resisting chromium steels or cast steels. Suitable for welding stainless steel tanks, valves, pipes and linings in chemical, food industries. For operating temperatures of up to +350°C, non-scaling up to +800°C. Possible to use equally well both with AC and DC. Easy arc striking and restriking. Fine metal droplet transfer, good fusion of joint faces, finely rippled bead surface, easily removable slag.

Rutil type stainless steel electrode for welding 18Cr/8Ni austenitic stainless steels to mild steels and low alloyed steels and also for surfacing applications on such steels. Weld metal deposit is austenitic-ferritic stainless steels. High efficiency electrode with 160% metal recovery. Possible to use equally well both with AC and DC. High current carrying capacity, since core wire is not made of stainless steel.

Rutile type stainless steel electrode for welding of heat resistant 22Cr/12Ni austenitic stainless steels to mild steels and low alloyed steels and also for surfacing applications on such steels. Weld metal deposit is austenitic-ferritic stainless steels. High efficiency electrode with 160% metal recovey. Possible to use equally well both with AC and DC. High current carrying capacity, since core wire is not made of stainless steel.

High-efficiency electrode for welding dissimilar steels (ferritic to austenitic steels) and depositing austenitic stainless claddings. Weld metal recovery of 160 %. The austenitic weld metal has a delta-ferrite content of approx. 15 %. Claddings on unalloyed steels are already corrosion resistant in the first layer. Highest operating temperature for dissimilar steel joints is +300°C. Possible to use equally well both with AC and DC. Easy arc striking and restriking. Fine metal droplet transfer, good fusion of joint faces, finely rippled bead surface, easy slag removal. High current carrying capacity, since core wire is not made of stainless steel.

Electrode for joining dissimilar steels (austenitic steels to ferritic steels) and for austenitic claddings. Weld metal consists of austenite with approx. 15% delta-ferrite. Claddings on unalloyed and low alloy steels are already corrosion resistant in the first layer. Highest operating temperature for joints between dissimilar steels is +300°C. In case of higher temperatures use ENI 422 electrodes. Fine metal droplet transfer, good fusion of joint faces, finely ripped bead surface, easy slag removal, easy arc striking and restriking.

Electrode for joining dissimilar steels (austenitic steels to ferritic steels) and for austenitic claddings. Weld metal consists of austenite with approx. 15% delta-ferrite. Claddings on unalloyed and low-alloy steels are already corrosion resistant in the first layer. Highest operating temperature for joints between dissimilar steels is +300°C. In the cases of higher temperatures, use ENI 422 electrodes. Fine metal droplet transfer, good fusion of joint faces, finely ripped bead surface, easy slag removal, easy arc striking and restriking.

Electrode for welding heat resisting chromium and chromium-nickel steels as well as cast steels. Possible to use equally well both with AC and DC. Weld metal deposit is fully austenitic stainless steel. Suitable for service temperatures up to +1200°C and non-scaling up to +1250°C. Exhibits high charpy impact energy at low temperatures. Weld metal is not corrosion resistant to sulphurous combustion gases.

Electrode for welding heat resisting chromium and chromium-nickel steels as well as cast steels. Used with DCEP. Weld metal deposit is fully austenitic stainless steel. Suitable for service temperatures up to 1200°C and non-scaling up to +1250°C. Exhibits high charpy impact energy at low temperatures. Weld metal is not corrosion resistant to sulphurous combustion gases.

Electrode for joining dissimilar steels and depositing claddings on ferritic steels. The ferritic-austenitic Cr-Ni weld metal contains approximately 50% of delta-ferrite and is non-scaling up to 1100°C. It features high resistance to cracking and is therefore suited for joining difficult to weld steels and depositing stress-relaxing buffer layers on crack sensitive base metals. Suitable for welding galvanized steel plates. Possible to use equally well both with AC and DC. Easy arc striking and restriking. Fine metal droplet transfer, good fusion of joint faces, finely rippled bead surface, easy slag removal.

Rutile type stainless steel electrode for welding 19Cr/12Ni/2-3Mo austenitic stainless steels to mild steels and low alloyed steels and also for surfacing applications on such steels. Weld metal deposit is austenitic-ferritic stainless steels. High efficiency electrode with 160 % metal recovery. Possible to use equally well both with AC and DC. High current carrying capacity, since core wire is not made of stainless steel.

Electrode for welding austenitic stainless Cr-Ni-Mo steels or cast steels, having an extra low carbon content. For operating temperatures of up to 400°C. Especially suitable for welding of stainless steel chemical tanks and pipes in chemical, textile, paint, paper industries. Possible to use equally well both with AC and DC. Easy arc striking and restriking. Fine metal droplet transfer, good fusion of joint faces, finely rippled bead surface, easily removable slag.

Electrode for welding austenitic stainless Cr-Ni-Mo steels and cast steels, having a low carbon content. For operating temperatures up to 400°C. Especially suitable for welding of stainless steel chemical tanks and pipes made of low carbon austenitic 19Cr/12Ni/2-3Mo stainless steels, in chemical, textile, paint, paper industries. Used with DCEP.

Electrode for welding stabilized austenitic stainless Cr-Ni-Mo steels and cast steels. For operating temperatures up to 400°C. Suitable for welding of stainless steel tanks, valves and pipes in chemical, textile, paint and paper industries. Possible to use equally well both with AC and DC. Easy arc striking and restriking. Fine-droplet metal transfer, good wash-in of joint sides, easily removable slag.

Electrode for welding stabilized austenitic stainless Cr-Ni steels, and cast steels, as well as stainless or heat resisting chromium steels or cast steels. For operating temperatures of up to 400°C, non-scaling up to 800°C. Especially suitable for welding of stainless steel tanks, valves and pipes in milk, beverage, food and chemical industries. Possible to use equally well both with AC and DC. Easy arc striking and restriking. Fine metal droplet transfer, good fusion of joint faces, finely rippled bead surface, easily removable slag.

Basic type stainless steel electrode with high recovery, for welding of stainless and heat resistant chromium steels or cast steels having chromium of approx. 13%. Deposits martensitic stainless steel weld metal. Also suitable for corrosion and abrasion resistant surfacing welds (contact surfaces of gas, water and steam fittings) subjected to operating temperatures up to 450°C. Weld metal is non-scaling up to 850°C. Use with DCEP. Depending on type of base metal and wall thickness, preheating and interpass temperatures from 100°C to 400°C and tempering at 650°C to 750°C are advisable.

Basic type stainless steel high recovery electrode, for welding of 12-14% Cr and 3-4% Ni stainless and heat resistant chromium steels or cast steels. Deposits martensitic stainless steel weld metal. Also suitable for corrosion and abrasion resistant surfacing welds (contact surfaces of gas, water, sea water and steam fittings). Used with DCEP. For wall thickness over 10 mm preheating to max. 150°C and after welding tempering or normalizing + tempering are recommended, especially in joint welding a buffer layer with EI 312 or EIS 307 electrode is advisable.

Electrode for welding dublex (ferritic-austenitic) stainless Cr-Ni-Mo steels. Suitable also for welding dublex stainless steels to carbon steels. The delta-ferrite content of the as-deposited weld metal amounts to approx. 25 to 35 %. The high-strenght and ductile weld metal exhibits good resistance to pitting, crevice corrosion and stress corrosion cracking in chloride-bearing media. For operating temperatures of up to +250°C. Possible to use equally well both with AC and DC. Fine metal droplet transfer, good fusion of joint faces, finely rippled bead surface, easy arc striking, restriking and slag removal.