FCAW
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MIG |
E308L T0-1/4
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E308LT0-1/4 has a nominal composition (wt.-%) of 19.5 Cr, 10 Ni, and a carbon
content which is at the low end of the range, 0.04 max. Because of the low carbon content in
this alloy, it is possible to obtain resistance to intergranular corrosion due to carbide precipitation
without the use of stabilizers such as niobium or titanium. E308LT0-1/4 finds
wide application in the welding of components for the chemical, paper, textile, and
pharmaceutical industries. It may be used to weld 301, 302, 304L, 308, and 308L stainless
steels. Types 321 and 347 may also be welded as long as the service temperature does not
exceed 500°F. It delivers superb performance characteristics in the flat and horizontal
positions, has little spatter, and easy-to-remove slag. Minimal weaving is required to achieve a
flat, well-washed bead.
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GFW308L |
FCAW
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MIG |
E308LT1-1/4 |
E308LT1-1/4 is a titania type, all-position, flux-cored wire designed for MAG welding of low carbon 18%Cr-8%Ni stainless steels including AISI 304, 304L, 304LN, ASTM A157 Gr. C9; A320 Gr. B8C or D. It may also be used for welding types 321 and 347 if service temperature does not exceed 500⁰F (260⁰C). This wire provides excellent weldability and increased creep resistance at elevated temperatures.
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GFW308LK |
FCAW
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MIG |
E309L T0-1/4
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E309LT0-1/4 has a nominal composition (wt.-%) of 23.5 Cr, 13 Ni, with a
maximum carbon content of 0.04. With this low carbon content, it is possible to obtain
resistance to intergranular corrosion due to carbide precipitation without the use of stabilizers
such as niobium and titanium. A primary application of this alloy is the first layer cladding of
carbon steel when no niobium additions are required. E309LT0-1/14 is utilized
in welding refinery and chemical processing equipment, as well as furnace and auto exhaust
parts. It welds Type 309 stainless steel, joins carbon and low alloy steels, welds 304 clad
sheets, and the first layer cladding of carbon steel. It delivers superb performance
characteristics in the flat and horizontal positions, has little spatter, and easy-to-remove slag.
Minimal weaving is required to achieve a flat, well-washed bead.
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GFW309L |
FCAW |
MIG |
E309L T1-1/4
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E309LT1-1/4 is a titania type, all-position, flux-cored wire designed for MAG welding of low carbon 22%Cr-12%Ni stainless steels. It is also used for dissimilar weld joints between high strength, mild steels and low-alloyed QT-steels, stainless, ferritic Cr and austenitic Cr-Ni steels, manganese steels. The weld metal contains comparatively much more ferrite in their austenitic, therefore providing better weldability together with superior heat and corrosion resistance.
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GFW309LK |
FCAW |
MIG |
E316L T0-1/4 |
E316LT0-1/4 has a nominal composition (wt.-%) of 18.5 Cr, 12.5 Ni, 2.5 Mo,
and a carbon content which is at the low end of the range, 0.04 max. By specifying low carbon
in this alloy, it is possible to obtain resistance to intergranular corrosion due to carbide
precipitation without the use of stabilizers such as niobium or titanium. The molybdenum
improves pitting resistance and provides increased creep resistance. E316LT0-
1/4 is utilized to weld Type 316 stainless and other similar alloys, such as ASTM A743 and
A744, as well as Types CF-8M and CF-3M. It has broad applications in pulp and paper, textile
and chemical processing equipment, furnace parts, and parts exposed to marine environments.
It delivers superb performance characteristics in the flat and horizontal positions, has little
spatter, and easy-to-remove slag. Minimal weaving is required to achieve a flat, well-washed
bead.
TYPE OF CURRENT: Direct Current Electrode P |
FCAW
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MIG |
E316L T1-1/4
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E316LT1-1/4 is a titania type, all-position, flux-cored wire designed for MAG welding of low carbon 18%Cr-12%Ni-2%Mo stainless steels. This wore has low carbon content which gives good resistance to most types of corrosion of the weld metal. It also has self-detaching slag, spray-like arc transfer, excellent weldability and increased creep resistance at elevated temperatures.
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GFW316LK
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FCAW
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MIG |
E317L T0-1/4
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E317LT0-1/4is suitable for welding of low carbon 18%Cr-12%Ni-3%Mo stainless steel.
It provides the excellent usability with stable arc, less spattering, good bead appearance, better slag removal, and less quantity of welding fume comparable to solid wire.
Is containing Ferrite of a reasonable quantity and crack-resistance, integranular corrosion resistance, mechanical properties of weld metal is superior.
Shield gas is 100% CO2 or Ar+CO2 gas.
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GFW317L
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FCAW |
MIG |
E347L T0-1/4
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E347T0-1 is a flux-cored wire for single or multi-pass welds on AISI types
304, 304L, 321 and 347 stainless steels. E347T0-1 is noted for its low spatter generation, excellent bead shape
and appearance and ease of slag removal. It has very good deposit efficiency when used for flat and fillet
welds of medium and heavy thickness plates. It has been designed to be used with 100% CO2 shield gas. The
E347T0-1 provides weld deposits with improved resistance to chromium carbide
precipitation and improved corrosion resistance as well as improved strength at higher temperatures.
E347T0-1 is used extensively in the fabrication of AISI types 321 and 347 stainless steel structures, pressure
vessels, tanks in dairy, pulp and paper, textile dyeing, refinery and chemical equipment. The extra low carbon
content reduces carbide precipitation. E347T0-1 can be used to weld stainless steels of similar compositions
when welds are required to meet higher corrosion resistance and higher creep strength requirements along
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GFW347L
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FCAW |
MIG |
E410L T0-1/4
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FCAW |
MIG |
E430L T0-1/4
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FCAW |
MIG |
E2209L T0-1/4
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This electrode is used to join duplex stainless steel base metals containing approximately 22% chromium. This alloy is in one of the family of duplex stainless steel alloys. This alloy has good resistance to stress corrosion cracking. Following the chemical composition designation comes the letter “T” which signifies that the product is a flux cored electrode or rod. Following the “T” is a “1” or “0” indicating the recommended position of welding. The “1” or “0” following the “T” designates the following: “0” – designed to weld in the flat or horizontal position, “1” – designed to weld in all position. Following the position indicator and a dash, are the numerals “1”, “3”, “4”, “5”, or the letter “G”. The numerals “1”, “4”, and “5” identify the shielding gas required for classification of the electrode. The number “3” signifies that an external shielding gas is not employed. The letter “G” signifies that the shielding medium, chemical composition and mechanical properties are not specified.
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FCAW |
MIG |
E2209L T1-1/4
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This electrode is used to join duplex stainless steel base metals containing approximately 22% chromium. This alloy is in one of the family of duplex stainless steel alloys. This alloy has good resistance to stress corrosion cracking. Following the chemical composition designation comes the letter “T” which signifies that the product is a flux cored electrode or rod. Following the “T” is a “1” or “0” indicating the recommended position of welding. The “1” or “0” following the “T” designates the following: “0” – designed to weld in the flat or horizontal position, “1” – designed to weld in all position. Following the position indicator and a dash, are the numerals “1”, “3”, “4”, “5”, or the letter “G”. The numerals “1”, “4”, and “5” identify the shielding gas required for classification of the electrode. The number “3” signifies that an external shielding gas is not employed. The letter “G” signifies that the shielding medium, chemical composition and mechanical properties are not specified.
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FCAW |
MIG |
E2594L T0-1/4
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E2594T0-1/4 is a flux cored, all position electrode with a nominal
composition of 25.5% chromium, 9.3% nickel, 3.5% molybdenum, and 0.25% nitrogen.
The Pitting Resistance Equivalent, given as Cr + 3.3*(Mo+0.5W) + 16*N, is equal or
greater than 40. The semi-quantitative Pitting Resistance Equivalent Number provides a
measure of the resistance to pitting in aqueous environments containing chlorides.
Pinnacle Alloys E2594T1-1/4 electrodes are designed for welding duplex (2500 family)
and super-duplex (wrought UNS S32750 and S32760 and cast UNS J93380 and
J93404) materials in the chemical and fertilizer industries, energy generation, flue gas
desulphurization, and for many offshore applications including piping systems, pumps,
valves, and heat exchangers.
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FCAW |
MIG |
E2594L T1-1/4
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E2594T1-1/4 is a flux cored, all position electrode with a nominal
composition of 25.5% chromium, 9.3% nickel, 3.5% molybdenum, and 0.25% nitrogen.
The Pitting Resistance Equivalent, given as Cr + 3.3*(Mo+0.5W) + 16*N, is equal or
greater than 40. The semi-quantitative Pitting Resistance Equivalent Number provides a
measure of the resistance to pitting in aqueous environments containing chlorides.
Pinnacle Alloys E2594T1-1/4 electrodes are designed for welding duplex (2500 family)
and super-duplex (wrought UNS S32750 and S32760 and cast UNS J93380 and
J93404) materials in the chemical and fertilizer industries, energy generation, flue gas
desulphurization, and for many offshore applications including piping systems, pumps,
valves, and heat exchangers.
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FCAW |
MIG |
ENiCrMo-3 T0-4
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FCAW Hardfacing |
MIG |
ECoCr-A |
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Stellite 6 |
FCAW Hardfacing |
MIG |
ECoCr-B |
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Stellite 12 |
FCAW
Hardfacing |
MIG |
ECoCr-E |
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Stellite 21 |