Why Quarto plate
- Made to precise customer specifications.
- Individually rolled quarto plates are customizable.
- Quarto plate material also available to be delivered prefabricated.
Made to measure
Individually rolled quarto plates are customizable and can be delivered prefabricated in diverse options such as pre-polished, with edge preparation and corrugation.
NORSOK-approved grades of Outokumpu quarto plate (duplex grades Forta DX 2205, super duplex Forta SDX 2507 and Forta SDX 100, as well as super austenitic Ultra 6XN and Ultra 254 SMO, also referred as 6Mo grades), are qualified for use in the oil and gas industry.
More than 60 grades of stainless steel are produced in thicknesses of up to 110 mm, even thicker plates are available on request and widths of up to 3,200 mm at our state-of-the-art plate production unit in Degerfors, Sweden. There, deep industry expertise results in quarto plate with exceptional flatness and surface quality.
Outokumpu’s network of Plate Service Centers (PSCs) throughout Europe and Kunshan, China offers a comprehensive menu of services designed to add value to your project: plasma cutting, waterjet cutting, laser cutting, bending and mechanical processing, edge preparation, welding, sawing, and shearing.
METRIC DIMENSIONS | |||
---|---|---|---|
Surface finish | Thickness (mm) | Width (mm) | Length (mm) |
1D – Hot rolled, heat treated, pickled | 5.0–130* | 400–3,260 | 400–13,500 |
*) Thicknesses > 110 mm, 5 % reduced mechanical values. Thicknesses > 130 mm on request.
IMPERIAL DIMENSIONS | |||
---|---|---|---|
Surface finish | Thickness (in) | Width (in) | Length (in) |
1D – Hot rolled, heat treated, pickled | 0.19685–5.11811 | 15.748–128.346 | 15.748–531.496 |
The maximum length for a given thickness and width combination might be restricted due to maximum piece weight restrictions.
The availability of specific dimensions and dimension combinations depends on the steel grade.
Storage tank calculator: Calculate material consumption with your specifications
Pressure vessel calculator: Use this tool to compare how steel grade selection affects the wall thickness in a pressure vessel’s cylindrical shell
Core 304/4301 is a classic 18% chromium, 8% nickel austenitic stainless steel. It’s an all-purpose product with good corrosion resistance and is suitable for a wide variety of applications that require good formability and weldability. Core 304/4301 can be delivered with a variety of surface finishes.
EN 1.4301
ASTM type 304
ASTM UNS S30400
Microstructure Austenitic
Typical applications
Product forms
Datasheet
Typical chemical composition, % by mass
C 0.04
Cr 18.1
Ni 8.1
Mo -
N -
Others -
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A higher nickel alternative to Core 304L/4307 with improved formability and deep drawability.
EN 1.4306
ASTM type 304L
ASTM UNS S30403
Microstructure Austenitic
Typical applications
Product forms
Datasheet
Typical chemical composition, % by mass
C 0.02
Cr 18.2
Ni 10.1
Mo -
N -
Others -
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Core 304L/4307 is a low-carbon alternative to Core 304/4301. The lower carbon content minimizes carbide precipitation as a result of heat input, for example during welding, giving improved resistance against intergranular corrosion. Core 304L/4307 is suitable for a wide variety of applications that require good formability and weldability, and can be delivered with a variety of surface finishes.
EN 1.4307
ASTM type 304L
ASTM UNS S30403
Microstructure Austenitic
Typical applications
Product forms
Datasheet
Typical chemical composition,% by mass
C 0.02
Cr 18.1
Ni 8.1
Mo -
N -
Others -
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A low-carbon, higher nickel and nitrogen alloyed alternative to Core 304L/4307 with improved strength and low-temperature toughness. Suitable for applications that require high tensile strength.
EN 1.4311
ASTM type 304L
ASTM UNS S30453
Microstructure Austenitic
Typical applications
Product forms
Datasheet
Typical chemical composition, % by mass
C 0.02
Cr 18.5
Ni 9.2
Mo -
N 0.14
Others -
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A titanium-stabilized austenitic stainless steel with improved intergranular corrosion resistance for an extended temperature range.
EN 1.4541
ASTM type 321
ASTM UNS S32100
Microstructure Austenitic
Typical applications
Product forms
Datasheet
Typical chemical composotion, % by mass
C 0.04
Cr 17.3
Ni 9.1
Mo -
N -
Others Ti
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Core 347/4550 is a niobium stabilized alternative to Core 321/4541 with improved intergranular corrosion resistance and good mechanical properties at high temperatures. Core 347/4550 is particularly useful in applications with intermittent heating in the range 400–900 °C/750–1650 °F.
EN 1.4550
ASTM type 347
ASTM UNS S34700
Microstructure Austenitic
Typical applications
Product forms
Datasheet
Typical chemical composition, % by mass
C 0.05
Cr 17.5
Ni
9.5
Mo -
N -
Others Nb
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Supra 316/4401 is a widely used Molybdenum alloyed austenitic stainless steel. It’s an all-purpose product with very good corrosion resistance and is suitable for a wide variety of applications that require good formability and weldability. Supra 316/4401 can be delivered with a variety of surface finishes.
EN 1.4401
ASTM type 316
ASTM UNS S31600
Microstructure Austenitic
Typical applications
Product forms
Datasheet
Chemical composition
C 0.04
Cr 17.2
Ni 10.1
Mo 2.1
N -
Others -
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Supra 316L/4404 is a low-carbon alternative to Supra 316/4401. The lower carbon content minimizes carbide precipitation as a result of heat input, for example during welding, giving improved resistance against intergranular corrosion.Supra 316L/4404 is suitable for a wide variety of applications that require good formability and weldability, and can be delivered with a variety of surface finishes.
EN 1.4404
ASTM type 316L
ASTM UNS S31603
Microstructure Austenitic
Typical applications
Product forms
Datasheet
Chemical composition
C 0.02
Cr 17.2
Ni 10.1
Mo 2.1
N -
Others -
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Supra 316L/4435 is a alternative to 316L/4404 with higher molybdenum and nickel content for enhanced corrosion resistance and formability.
EN 1.4435
ASTM type 316L
ASTM UNS S31603
Microstructure Austenitic
Typical applications
Product forms
Datasheet
Chemical composition
C
0.02
Cr 17.3
Ni 12.6
Mo 2.6
N -
Others -
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Supra 316/4436 is a product with high resistance to non-oxidizing acids and chloride-containing media due to higher molybdenum content. It has good formability and weldability.
EN 1.4436
ASTM type 316
ASTM UNS S31600
Microstructure Austenitic
Typical applications
Product forms
Datasheet
Chemical composition
C 0.04
Cr 16.9
Ni 10.7
Mo 2.6
N -
Others -
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Supra 316Ti/4571 is a titanium-stabilized alternative to Supra 316L/4404 – mainly used in Germany for elevated temperature applications. Due to its titanium-stabilization this product is weldable in all thickness ranges.
EN 1.4571
ASTM type 316Ti
ASTM UNS S31635
Microstructure Austenitic
Usage
Product forms
Datasheet
Chemical composition
C 0.04
Cr 16.8
Ni 10.9
Mo 2.1
N -
Others Ti
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A lean-alloyed duplex product with good resistance to localized and uniform corrosion, as well as stress corrosion cracking, making it a good substitute for coated carbon steel in e.g. structural components and storage tanks. Also offers high mechanical strength and good machinability.
EN 1.4162
ASTM type -
ASTM UNS S32101
Microstructure Duplex
Typical applications
Product forms
Datasheet
Chemical composition, % by mass
C 0.03
Cr 21.5
Ni 1.5
Mo 0.3
N 0.22
Others 5 Mn Cu
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A duplex product with a leaner alloying composition than Forta DX 2205. It has good resistance to localized and uniform corrosion, as well as stress corrosion cracking, combined with high mechanical strength.
EN 1.4362
ASTM type -
ASTM UNS S32304
Microstructure Duplex
Typical applications
Product forms
Datasheet
Chemical composition, % by mass
C 0.02
Cr 23.0
Ni 4.8
Mo 0.3
N 0.10
Others Cu
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A low-nickel, high-nitrogen duplex product with higher mechanical strength than Forta DX 2205. Offers very good resistance to localized and uniform corrosion, as well as stress corrosion cracking.
EN 1.4662
ASTM type -
ASTM UNS S82441
Microstructure Duplex
Typical applications
Product forms
Datasheet
Typical chemical composition, % by mass
C 0.02
Cr 24.0
Ni 3.6
Mo 1.6
N 0.27
Others 3Mn Cu
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The most popular duplex product on the market. Offers very good resistance to uniform and localized corrosion and stress corrosion cracking in combination with high mechanical strength.
EN 1.4462
ASTM type -
ASTM UNS S32205
Microstructure Duplex
Typical applications
Product forms
Datasheet
Chemical composition, % by mass
C 0.02
Cr 22.4
Ni 5.7
Mo 3.1
N 0.17
Others -
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A super duplex product with higher corrosion resistance and mechanical strength than Forta DX 2205. Often used in extremely corrosive environments such as desalination, chemical, or offshore subsea applications.
EN 1.4410
ASTM type -
ASTM UNS S32750
Microstructure Duplex
Typical applications
Product forms
Datasheet
Typical chemical composition, % by mass
C 0.02
Cr 25
Ni 7.0
Mo 4.0
N 0.27
Others -
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A super duplex product with higher corrosion resistance and mechanical strength than Forta DX 2205. Often used in extremely corrosive environments such as desalination, chemical, or offshore subsea applications.
EN 1.4501
ASTM type -
ASTM UNS S32760
Microstructure Duplex
Typical applications
Product forms
Datasheet
Chemical composition
C 0.02
Cr 25.4
Ni 6.9
Mo 3.8
N 0.27
Others W Cu
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A molybdenum and nitrogen-alloyed austenitic stainless steel with significantly higher corrosion resistance than Supra 316L/4404. Also known as 317LMN.
EN 1.4439
ASTM type 317LMN
ASTM UNS S31726
Microstructure Austenitic
Typical applications
Product forms
Datasheet
Typical chemical composition, % by mass
C 0.02
Cr 17.3
Ni 13.7
Mo 4.1
N 0.14
Others -
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Ultra 725LN is a type 310 material (high chrome and high nickel) that has been developed and optimized specifically for urea production, which demand extremely high corrosion resistance. It has similar general pitting resistance to Ultra 904L.
EN 1.4466
ASTM type -
ASTM UNS S31050
Microstructure Austenitic
Typical applications
Product forms
Datasheet
Typical chemical composition, % by mass
C 0.01
Cr 25.0
Ni 22.3
Mo 2.1
N 0.12
Others -
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Ultra 904L is a high-nickel and molybdenum austenitic stainless steel with very high corrosion resistance. It was originally developed for handling sulfuric acid at ambient temperatures, and is now used in a broad range of chemical industry applications.
EN 1.4539
ASTM type 904L
ASTM UNS NO8904
Microstructure Austenitic
Typical applications
Product forms
Datasheet
Typical chemical composition, % by mass
C 0.01
Cr 19.8
Ni 24.2
Mo 4.3
N -
Others 1.4Cu
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A 6 % molybdenum and nitrogen-alloyed austenitic stainless steel with extremely high resistance to both uniform and localized corrosion. This product was developed especially for oil and gas offshore platforms and the pulp and paper industry.
EN 1.4547
ASTM type -
ASTM UNS S31254
Microstructure Austenitic
Typical applications
Product forms
Datasheet
Typical chemical composition, % by mass
C 0.01
Cr 20.0
Ni 18.0
Mo 6.1
N 0.20
Others Cu
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Therma 153 MA is an austenitic stainless steel with excellent oxidation and creep resistance in cyclic conditions that is best employed in temperatures up to 1050°C/1920°F. This product has an excellent resistance to embrittlement.
EN 1.4818
ASTM type -
ASTM UNS S30415
Microstructure Austenitic
Typical applications
Product forms
Datasheet
Typical chemical composition, % by mass
C 0.05
Cr 18.5
Ni 9.1
Mo -
N 0.15
Others Si,Ce
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Therma 4828 is an austenitic heat resisting stainless steel with improved oxidation resistance in temperatures up to 1000°C/1830°F. There is a slight susceptibility to embrittlement during continuous operation atbetween 600–850°C/1110– 1560 °F.
EN 1.4828
ASTM type -
ASTM UNS -
Microstructure Austenitic
Typical applcations
Product forms
Datasheet
Typical chemical composition, % by mass
C 0.05
Cr 19.3
Ni 11.2
Mo -
N -
Others Si
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Therma 309S/4833 is an austenitic stainless steel with improved oxidation resistance in temperatures up to 1000°C/1830°F. There is a slight susceptibility to embrittlement during continuous operation at 600–900°C/1110–1652°F.
EN 1.4833
ASTM type 309S
ASTM UNS S30908
Microstructure Austenitic
Typical applications
Product forms
Datasheet
Typical chemical composition, % by mass
C 0.06
Cr 22.3
Ni 12.3
Mo -
N -
Others -
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Therma 253 MA is an austenitic stainless steel with excellent oxidation and creep resistance in cyclic conditions that is best employed in temperatures up to 1150°C/2100°F. There is a slight susceptibility to embrittlement during continuous operation between 600–850°C/1110–1560°F.
EN 1.4835
ASTM type -
ASTM UNS S30815
Microstructure Austenitic
Typical applications
Product forms
Datasheet
Typical chemical composition, % by mass
C 0.09
Cr 21.0
Ni 11.0
Mo -
N 0.17
Others Si, Ce
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Therma 314/4841 is an austenitic heat resisting stainless steel with excellent oxidation resistance in temperatures up to 1150°C/2100°F. There is a high susceptibility to embrittlement during continuous operation at 600–900°C/1110–1652°F
EN 1.4841
ASTM type 314
ASTM UNS S31400
Microstructure Austenitic
Typical applications
Product forms
Datasheet
Typical chemical composition, % by mass
C 0.06
Cr 24.3
Ni 19.2
Mo -
N -
Others Si
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Therma 321H/4878 is an austenitic heat resisting stainless steel with comparable wet corrosion resistance to Core 321/4541 that is best employed in temperatures up to 850 °C/1560 °F.
EN 1.4878
ASTM type 321H
ASTM UNS -
Microstructure Austenitic
Typical applications
Product forms
Datasheet
Typical chemical composition, % by mass
C 0.05
Cr 17.3
Ni 9.1
Mo -
N -
Others Ti
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Therma 310S/4845 is an austenitic product with very good oxidation resistance in general and good oxidation resistance in mildly cyclic conditions that is best employed in temperatures up to 1050°C/1920°F. There is a slight susceptibility to embrittlement during continuous operation between 600–900°C/1110–1652°F.
EN 1.4845
ASTM type 310S
ASTM UNS S31008
Microstructure Austenitic
Typical applications
Product forms
Datasheet
Typical chemical composition, % by mass
C 0.05
Cr 25.5
Ni 19.1
Mo -
N -
Others -
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Therma 304H/4948 is an austenitic Core 304/4301 variant with improved high-temperature creep strength that is best employed in temperatures up to 750°C/1380°F. It offers good formability and weldability.
EN 1.4948
ASTM type 304H
ASTM UNS S30409
Microstructure Austenitic
Typical applications
Product forms
Datasheet
Typical chemical composition, % by mass
C 0.05
Cr 18.1
Ni 8.3
Mo -
N -
Others -
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Prodec 304L/4307 is a version of Core 304L/4307 with improved machinability. It improves productivity with faster machining, longer tool life, better dimensional tolerances, superior machined surface quality, and improved yields compared to conventionally produced Core 304L/4307.
EN 1.4307
ASTM type 304L
ASTM UNS S30403
Microstructure Austenitic
Typical applications
Product forms
Datasheet
Typical chemical composition, % by mass
C 0.02
Cr 18.1
Ni 8.1
Mo -
N -
Others -
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Prodec 316L/4404 is a version of Supra 316L/4404 with improved machinability. It improves productivity with faster machining, longer tool life, better dimensional tolerances, superior machined surface quality, and improved yields compared to conventionally produced Supra 316L/4404.
EN 1.4404
ASTM type 316L
ASTM UNS S31603
Microstructure Austenitic
Typical applications
Product forms
Datasheet
Typical chemical composition, % by mass
C 0.02
Cr 17.2
Ni 10.1
Mo 2.1
N -
Others -
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With extensive stock, and vast grade ranges, the Outokumpu plate service centers are the leading stainless profiling network that are located in Australia, China, Finland, France, Germany, Italy, the Netherlands, Sweden and the UK.
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