Auf engste Toleranzen ausgelegt

Präzisionsband

Unser kaltgewalztes Präzisionsband (auch als Dünnband bekannt) ist aus rostfreien und hitzebeständigen Stählen gefertigt, die eine Vielzahl von Eigenschaften mit hoher Präzision kombinieren.

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Verfügbare Werkstoffe und Abmessungen

METRISCHE ABMESSUNGEN
Oberflächenausführung Dicke (mm) Breite (mm)
2R – Kaltgewalzt, blankgeglüht 0.05–1.50 3–649
2H – kaltverfestigt 0.05–1.50 3–630

 

ANGLOAMERIKANISCHE ABMESSUNGEN
Oberflächenausführung Dicke (Zoll) Breite (Zoll)
2R – Kaltgewalzt, blankgeglüht 0.002–0.06 0.118–25.551
2H – kaltverfestigt 0.002–0.06 0.118–24.803

 

Die Verfügbarkeit bestimmter Oberflächenausführungen und Abmessungen hängt vom Werkstoff ab.

 

Lieferformen

Coils mit einem Innendurchmesser von 200, 300, 400 und 500 mm,  abhängig von Bandbreite und Dicke. Andere Coildurchmesser auf Anfrage. Coilgewicht bis 10 kg/mm Bandbreite. Kann auf Anfrage auch auf Haspeln geliefert werden.

 

Toleranzen

Breiten- und Dickentoleranzen nach EN 10258 (vormals DIN 59381). Engere Toleranzen können vereinbart werden.

 

Mechanische Eigenschaften

  • EN 10088 (Spalt)Band aus Edelstahl (allgemein)
  • EN 10151 (Spalt)Band aus Edelstahl für Federn (jede Festigkeit gemäß der Norm ist möglich)

 

Sehen Sie sich den Stainless Steel Finder an, um verschiedene Edelstahlgüten, Dicken- und Breitenabmessungen sowie verfügbare Oberflächenausführungen anzuzeigen, nach ihrer Produktform gemäß der EN- und ASTM-Normen. Sie finden hier auch Informationen über Korrosionsbeständigkeit, mechanische Festigkeit, Dehnung und andere Eigenschaften von Edelstahlgüten.

Moda 430/4016 stainless steel

Moda 430/4016 is a classic 16 % chromium ferritic stainless steel used in mildly corrosive environments.

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  • EN: 1.4016
  • ASTM type: 430
  • ASTM UNS: S43000
  • Microstructure : Ferritic
Typical applications
  • Kitchen equipment
  • Household appliances
  • Sinks
  • Flanges and valves
Product forms
Typical chemical composition, % by mass
  • C: 0.05
  • Cr: 16.2
  • Ni: -
  • Mo: -
  • N: -
  • Others : -

Moda 439/4510 stainless steel

A titanium-stabilized 17% chromium ferritic steel with improved corrosion resistance, formability, and weldability compared to Moda 430/4016.

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  • EN: 1.4510
  • ASTM type: 439
  • ASTM UNS: S43035
  • Microstructure: Ferritic
Typical applications
  • Automotive exhaust systems
  • Sugar industry equipment
  • Household appliances
Product forms
Chemical composition
  • C: 0.02
  • Cr: 17.1
  • Ni: -
  • Mo: -
  • N: -
  • Others: Ti

Moda 409/4512 stainless steel

Moda 409/4512 is a weldable ferritic stainless steel with good oxidation resistance in dry air. It is also available as low-carbon Moda 409L.

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  • EN: 1.4512
  • ASTM type: 409
  • ASTM UNS: -
  • Microstructure: Ferritic
Typical applications
  • Automotive applications
  • Industrial exhaust systems
Product forms
Chemical composition
  • C: 0.02
  • Cr: 11.5
  • Ni: 0,2
  • Mo: -
  • N: -
  • Others: Ti

Moda 430Ti/4520 stainless steel

Moda 430Ti/4520 is an alternative to Moda 430/4016 with better formability and weldability for stamping, drawability applications, and complex shapes.

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  • EN: 1.4520
  • ASTM type: 430Ti
  • ASTM UNS: -
  • Microstructure : Ferritic
Typical applications
  • Counter tops
  • Flue induction connectors
  • Automotive applications
Product forms
Chemical composition
  • C: 0.02
  • Cr: 16.2
  • Ni: -
  • Mo: -
  • N: -
  • Others: Ti

Core 434/4113

A molybdenum-alloyed ferritic stainless steel that offers improved corrosion resistance. This grade is available from Outokumpu Americas.

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  • EN: 1.4113
  • ASTM type: 434
  • ASTM UNS: S43400
  • Microstructure: Ferritic
Typical applications
  • Automotive trim and fittings
Product forms
Typical chemical composition, % by mass
  • C: 0.04
  • Cr: 16.5
  • Ni: -
  • Mo: 1.0
  • N: -
  • Others: -

Core 304/4301

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.

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  • EN: 1.4301
  • ASTM type: 304
  • ASTM UNS: S30400
  • Microstructure: Austenitic
Typical applications
  • Household appliances and consumer goods
  • Kitchen equipment
  • Indoor and outdoor cladding, handrails and window frames
  • Food and beverage industry equipment
  • Storage tanks
  • Flanges and valves
Product forms
Typical chemical composition, % by mass
  • C: 0.04
  • Cr: 18.1
  • Ni: 8.1
  • Mo: -
  • N: -
  • Others: -

Core 305/4303

A high-nickel alternative to Core 304/4301 with reduced strain hardening and excellent cold-forming properties. Ideal for parts that require high degree of deformation. 

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  • EN: 1.4303
  • ASTM type: 305
  • ASTM UNS: S30500
  • Microstructure: Austenitic
Typical applications
  • Industrial parts with complex shapes
  • Sinks and other deep-drawn products
  • Complex stamping processes
  • Re-rollers producing very thin-gauge coils
Product forms
Typical chemical composition, % by mass
  • C: 0.04
  • Cr: 17.7
  • Ni: 12.5
  • Mo: -
  • N: -
  • Others: -

Core 304L/4306

A higher nickel alternative to Core 304L/4307 with improved formability and deep drawability.

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  • EN: 1.4306
  • ASTM type: 304L
  • ASTM UNS: S30403
  • Microstructure: Austenitic
Typical applications
  • Chemical and pharmaceutical plant equipment (mild to medium corrosive environments)
  • Flanges and valves
Product forms
Typical chemical composition, % by mass
  • C: 0.02
  • Cr: 18.2
  • Ni: 10.1
  • Mo: -
  • N: -
  • Others: -

Core 304L/4307

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.

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  • EN: 1.4307
  • ASTM type: 304L
  • ASTM UNS: S30403
  • Microstructure: Austenitic
Typical applications
  • Food and beverage industry equipment
  • Chemical and pharmaceutical industry equipment (mild to medium corrosive environments)
  • Heat exchangers
  • Storage tanks
  • Tank containers
  • Pipes and tubes
  • Flanges and valves
Product forms
Typical chemical composition,% by mass
  • C: 0.02
  • Cr: 18.1
  • Ni: 8.1
  • Mo: -
  • N: -
  • Others: -

Core 301/4310

A lower chromium and nickel alternative to Core 304/4301 with high work hardening capacity, this is a good choice for applications subjected to high mechanical loading

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  • EN: 1.4310
  • ASTM type: 301
  • ASTM UNS: S30100
  • Microstructure: Austenitic
Typical applications
  • Springs
  • Press plates
  • Conveyor chains
  • Mixer blades
  • Sinks
Product forms
Typical chemical composition, by mass %
  • C: 0.10
  • Cr: 17.0
  • Ni: 7.0
  • Mo: -
  • N: -
  • Others : -

Core 301LN/4318

A low-carbon, nitrogen alloyed alternative to Core 301/4310 with elevated strength, making it particularly suitable for lightweight construction.

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  • EN: 1.4318
  • ASTM type: 301LN
  • ASTM UNS: S30153
  • Microstructure: Austenitic
Typical applications

• Automotive applications, especially vehicles chassis
• Railroad cars

Product forms
Typical chemical composition, % by mass
  • C: 0.02
  • Cr: 17.7
  • Ni: 6.5
  • Mo: -
  • N: 0.14
  • Others : -

Core 201/4372

This low-nickel stainless steel has properties approaching Core 301/4310 but with a higher work hardening coefficient. Grade is available from Outokumpu Americas.

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  • EN: 1.4372
  • ASTM type: 201
  • ASTM UNS: S20100
  • Microstructure: Austenitic
Typical applications
  • Household appliances
  • Kitchen utensils
  • Sinks
  • Doors and windows
  • Railroad cars
Product forms
Typical chemical composition, % by mass
  • C: 0.05
  • Cr: 16.1
  • Ni: 3.6
  • Mo: -
  • N: 0.08
  • Others: 7Mn

Core 441/4509

A nickel-free 17% chromium ferritic stainless steel grade with good corrosion resistance and high-temperature strength was originally designed for exhaust systems. Core 441/4509 is available with single (niobium) or dual (niobium and titanium) stabilization. Due to good formability and weldability it is often a suitable replacement for Core 301/4310.

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  • EN: 1.4509
  • ASTM type: -
  • ASTM UNS: S43940
  • Microstructure: Ferritic
Usage
  • Indoor claddings
  • Restaurant equipment and appliances
  • Tubes
  • Heat exchangers
Product forms
Typical chemical composition, % by mass
  • C: 0.02
  • Cr: 17.6
  • Ni: -
  • Mo: -
  • N:

    -

     

  • Others: Nb, Ti 

Core 321/4541

A titanium-stabilized austenitic stainless steel with improved intergranular corrosion resistance for an extended temperature range.

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  • EN: 1.4541
  • ASTM type: 321
  • ASTM UNS: S32100
  • Microstructure: Austenitic
Typical applications
  • Anneailing covers
  • Stack liners
  • Automotive exhaust systems
  • Welded pressure vessels
  • Flanges and valves
Product forms
Typical chemical composotion, % by mass
  • C: 0.04
  • Cr: 17.3
  • Ni: 9.1
  • Mo: -
  • N: -
  • Others : Ti

Core 347/4550

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.

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  • EN: 1.4550
  • ASTM type: 347
  • ASTM UNS: S34700
  • Microstructure: Austenitic
Typical applications
  • High temperature gaskets
  • Rocket engine parts
  • Expansion joints
  • Aircraft collector rings
  • Exhaust manifolds
  • Chemical production equipment
  • Flanges and valves
Product forms
Typical chemical composition, % by mass
  • C: 0.05
  • Cr: 17.5
  • Ni: 9.5
  • Mo: -
  • N: -
  • Others: Nb

Core 4622

A nickel-free, high-chromium (21Cr) ferritic stainless steel with equal corrosion resistance to Core 304/4301. Core 4622 has excellent deep drawability and is almost ridging free, meaning it is easier to polish and has a lower overall production cost.

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  • EN: 1.4622
  • ASTM type: -
  • ASTM UNS: S44330
  • Microstructure: Ferritic
Typical applications
  • Household, catering and architectural applications (indoor and outdoor)
  • Tubular products for automotive and process industries
  • Building facades
  • Tanks and process equipment
Product forms
Typical chemical composition, % by mass
  • C: 0.02
  • Cr: 21.0
  • Ni: -
  • Mo: -
  • N: -
  • Others: Nb,Ti,Cu

Supra 316/4401 stainless steel

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.

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  • EN: 1.4401
  • ASTM type: 316
  • ASTM UNS: S31600
  • Microstructure: Austenitic
Typical applications
  • Heat exchangers
  • Flanges and valves
Product forms
Chemical composition
  • C: 0.04
  • Cr: 17.2
  • Ni: 10.1
  • Mo: 2.1
  • N: -
  • Others : -

Supra 316L/4404 stainless steel

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.

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  • EN: 1.4404
  • ASTM type: 316L
  • ASTM UNS: S31603
  • Microstructure: Austenitic
Typical applications
  • Chemical industry
  • Petrochemical industry
  • Pulp and paper industry
  • Textile industry
  • Food and beverage industry
  • Pharmaceutical industry
  • Medical applications
  • Flanges and valves
Product forms
Chemical composition
  • C: 0.02
  • Cr: 17.2
  • Ni: 10.1
  • Mo: 2.1
  • N: -
  • Others : -

Supra 316plus stainless steel

Supra 316plus is the highest strength stainless steel in the Supra range. It is a cost-efficient, 21Cr lower-nickel/molybdenum alternative to traditional molybdenum austenitics like Supra 316L. This product has good formability, excellent weldability, and is usable in cryogenic applications.

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  • EN: 1.4420
  • ASTM type : -
  • ASTM UNS: S31655
  • Microstructure: Austenitic
Typical applications
  • Process and transport tanks
  • Water treatment and pipes
  • Heat exchangers
  • Architectural applications
Product forms
Chemical composition
  • C: 0.02
  • Cr: 20.3
  • Ni: 8.6
  • Mo: 0.7
  • N: 0.19
  • Others : -

Supra 316L/4435 stainless steel

Supra 316L/4435 is a alternative to 316L/4404 with higher molybdenum and nickel content for enhanced corrosion resistance and formability.

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  • EN: 1.4435
  • ASTM type: 316L
  • ASTM UNS: S31603
  • Microstructure: Austenitic
Typical applications
  • Urea plants
  • Pulp and synthetic fiber plants
  • Flanges and valves
  • Cryogenic
  • Hydrogen
Product forms
Chemical composition
  • C: 0.02
  • Cr: 17.3
  • Ni: 12.6
  • Mo : 2.6
  • N: -
  • Others : -

Supra 316/4436 stainless steel

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.

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  • EN: 1.4436
  • ASTM type: 316
  • ASTM UNS: S31600
  • Microstructure: Austenitic
Typical applications
  • Pulp and paper industry equipment
  • Pharmaceutical industry equipment
  • Flanges and valves
Product forms
Chemical composition
  • C: 0.04
  • Cr: 16.9
  • Ni: 10.7
  • Mo: 2.6
  • N: -
  • Others: -

Supra 444/4521 stainless steel

Supra 444/4521 is a nickel-free molybdenum-alloyed ferritic stainless steel with very good corrosion resistance, good cold formability and high strength. It allows for thinner walls in tanks and is not prone to stress corrosion cracking.

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  • EN: 1.4521
  • ASTM type: 444
  • ASTM UNS: S444000
  • Microstructure: Ferritic
Typical applications
  • Hot water tanks
  • Drinking water pipes
Product forms
Chemical composition
  • C: 0.02
  • Cr: 18.0
  • Ni: -
  • Mo: 2.04
  • N: -
  • Others: Nb,Ti

Supra 316Ti/4571 stainless steel

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.

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  • EN: 1.4571
  • ASTM type: 316Ti
  • ASTM UNS: S31635
  • Microstructure: Austenitic
Usage
  • Flue gas applications
  • Flanges and valves
Product forms
Chemical composition
  • C: 0.04
  • Cr: 16.8
  • Ni: 10.9
  • Mo: 2.1
  • N: -
  • Others: Ti

Forta H400

Forta H400 has higher strength than standard 304/4301 and a lower nickel content, making it a cost-effective and lightweight austenitic product for the automotive industry. It has been used in automotive applications for over 10 years.

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  • EN: 1.4376
  • ASTM type: -
  • ASTM UNS: -
  • Microstructure: Austenitic
Usage
  • Cross members
  • Strut domes
  • Bumpers
Product forms
Typical chemical composition, % by mass
  • C: 0.04
  • Cr: 17.5
  • Ni: 4.0
  • Mo: -
  • N: 0.20
  • Others: 6.8Mn

Forta DX 2205

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.

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  • EN: 1.4462
  • ASTM type: -
  • ASTM UNS: S32205
  • Microstructure: Duplex
Typical applications
  • Cargo tanks in chemical tankers
  • Pulp and paper industry applications such as digesters and process tanks
  • Oil and gas industry applications such as flanges, tubes, and pipes
  • Structural components in bridges
  • Flanges and valves
Product forms
Chemical composition, % by mass
  • C: 0.02
  • Cr: 22.4
  • Ni: 5.7
  • Mo: 3.1
  • N: 0.17
  • Others: -

Ultra 317L stainless steel

Ultra 317L is a molybdenum-alloyed austenitic stainless steel with higher corrosion resistance than Supra 316L/4404 – mainly used in the USA and Asia.

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  • EN: 1.4438
  • ASTM type:

    317L

     

  • ASTM UNS: S31703
  • Microstructure : Austenitic
Typical applications
  • Chemical processing industry
Product forms
Typical chemical composition, % by mass
  • C: 0.02
  • Cr: 18.2
  • Ni: 13.7
  • Mo: 3.1
  • N: -
  • Others : -

Ultra 4439 stainless steel

A molybdenum and nitrogen-alloyed austenitic stainless steel with significantly higher corrosion resistance than Supra 316L/4404. Also known as 317LMN.

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  • EN: 1.4439
  • ASTM type: 317LMN
  • ASTM UNS: S31726
  • Microstructure: Austenitic
Typical applications
  • Chemical processing industry
  • Flue gas cleaning
  • Flanges and valves
Product forms
Typical chemical composition, % by mass
  • C: 0.02
  • Cr: 17.3
  • Ni: 13.7
  • Mo: 4.1
  • N: 0.14
  • Others : -

Ultra 6XN stainless steel

Ultra 6XN is a 6 % molybdenum, high-nickel and nitrogen-alloyed austenitic product with extremely high resistance to both uniform and localized corrosion.

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  • EN: 1.4529
  • ASTM type: -
  • ASTM UNS: N08926/N08367
  • Microstructure: Austenitic
Typical applications
  • Applications requiring resistance to chlorinated seawater
  • Flue gas cleaning
Product forms
Typical chemical composition, % by mass
  • C: 0.01
  • Cr: 20.5
  • Ni: 24.8
  • Mo: 6.5
  • N: 0.20
  • Others: Cu

Ultra 904L stainless steel

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.

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  • EN: 1.4539
  • ASTM type: 904L
  • ASTM UNS: NO8904
  • Microstructure: Austenitic
Typical applications
  • Chemical and petrochemical industry equipment such as pipes, heat exchangers, tanks, and reactor vessels
  • Sulfuric acid handling
  • Flanges and valves
Product forms
Typical chemical composition, % by mass
  • C: 0.01
  • Cr: 19.8
  • Ni: 24.2
  • Mo: 4.3
  • N: -
  • Others: 1.4Cu

Ultra 254 SMO stainless steel

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.

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  • EN: 1.4547
  • ASTM type: -
  • ASTM UNS: S31254
  • Microstructure: Austenitic
Typical applications
  • Applications requiring resistance to chlorinated seawater
  • Flue gas cleaning
  • Maritime exhaust gas cleaning (EGC)
  • Bleaching equipment in the pulp and paper industry
  • Flanges and valves
Product forms
Typical chemical composition, % by mass
  • C: 0.01
  • Cr: 20.0
  • Ni: 18.0
  • Mo: 6.1
  • N: 0.20
  • Others: Cu

Ultra 4565 stainless steel

A 4.5% molybdenum, very high nitrogen alloyed austenitic stainless steel with excellent corrosion resistance and high mechanical strength.

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  • EN: 1.4565
  • ASTM type: -
  • ASTM UNS: S34565
  • Microstructure: Austenitic
Typical applications
  • Flue gas desulfurization applications
Product forms
Typical chemical composition, % by mass
  • C: 0.02
  • Cr: 24.0
  • Ni: 17.0
  • Mo: 4.5
  • N: 0.45
  • Others: 5.5Mn

Dura 420/4021

A very popular martensitic stainless steel that is corrosion resistant in water and steam. 

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  • EN: 1.4021
  • ASTM type: 420
  • ASTM UNS: S42000
  • Microstructure: Martensitic
Typical applications
  • Cutting utensils
  • Surgical instruments
  • Press plates
  • Brake discs
  • Mechanical parts
  • Flanges and valves
Product forms
Typical chemical composition, % by mass
  • C: 0.20
  • Cr: 13.0
  • Ni: -
  • Mo: -
  • N: -
  • Others: -

Dura 17-7PH

A precipitation hardening stainless steel with high strength and hardness, good corrosion resistance, and satisfactory formability (depending on heat treatment/condition). 

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  • EN: 1.4568
  • ASTM: 631
  • UNS: S17700
  • Microstructure: Precipitation hardening
Typical applications
  • Retaining rings
  • Springs
  • Valves and flanges
  • Gears
  • Aircraft parts
Product forms
Typical chemical composition, % by mass
  • C: 0.08
  • Cr: 17.0
  • Ni: 7.0
  • Mo: -
  • N: -
  • Others : Al

Therma 153 MA stainless steel

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.

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  • EN: 1.4818
  • ASTM type: -
  • ASTM UNS: S30415
  • Microstructure: Austenitic
Typical applications
  • Recuperators
  • Conveyor belts
  • Expansion bellows
  • Power generation applications
  • Cyclone dip tubes
  • Bell furnaces
  • Muffle furnaces
  • Automotive components
  • Tube shields
  • Heat treatment trays
  • Dampers
  • Valves and flanges
Product forms
Typical chemical composition, % by mass
  • C: 0.05
  • Cr: 18.5
  • Ni: 9.1
  • Mo: -
  • N: 0.15
  • Others : Si,Ce

Therma 4828 stainless steel

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.

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  • EN: 1.4828
  • ASTM type: -
  • ASTM UNS: -
  • Microstructure: Austenitic
Typical applcations
  • Furnace equipment (especially supporting parts)
  • Annealing and hardening boxes
  • Air heaters
  • Exhaust systems
  • Automotive components such as turbochargers
  • Valves and flanges
Product forms
Typical chemical composition, % by mass
  • C: 0.05
  • Cr: 19.3
  • Ni: 11.2
  • Mo: -
  • N: -
  • Others: Si

Therma 253 MA stainless steel

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.

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  • EN: 1.4835
  • ASTM type: -
  • ASTM UNS: S30815
  • Microstructure: Austenitic
Typical applications
  • Oil industry equipment
  • Conveyor belts
  • Refractory anchors
  • Expansion bellows
  • Radiant tubes
  • Rotary kilns
  • Exhaust manifolds
  • Power generation applications
  • Cyclone dip tubes
  • Impact separators
  • Bell furnaces
  • Muffle furnaces
  • Automotive exhaust components
  • Tube shields
  • Heat treatment trays
  • Dampers
  • Recuperator tubes
  • Large-scale bakery ovens
  • Valves and flanges
Product forms
Typical chemical composition, % by mass
  • C: 0.09
  • Cr: 21.0
  • Ni: 11.0
  • Mo: -
  • N: 0.17
  • Others: Si, Ce

Therma 314/4841 stainless steel

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

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  • EN: 1.4841
  • ASTM type: 314
  • ASTM UNS: S31400
  • Microstructure: Austenitic
Typical applications
  • Furnace equipment
  • Superheater suspensions
  • Enameling grates and hardening boxes
  • Valves and flanges
Product forms
Typical chemical composition, % by mass
  • C: 0.06
  • Cr: 24.3
  • Ni: 19.2
  • Mo: -
  • N: -
  • Others: Si

Therma 310S/4845 stainless steel

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.

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  • EN: 1.4845
  • ASTM type: 310S
  • ASTM UNS: S31008
  • Microstructure : Austenitic
Typical applications
  • Furnace equipment
  • Oil industry equipment
  • Heat treatment baskets
  • Heat exchangers
  • Steam boilers
  • Thermowells
  • Automotive components
  • Valves and flanges
Product forms
Typical chemical composition, % by mass
  • C: 0.05
  • Cr: 25.5
  • Ni: 19.1
  • Mo: -
  • N: -
  • Others : -

Therma 321H/4878 stainless steel

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.

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  • EN: 1.4878
  • ASTM type: 321H
  • ASTM UNS: -
  • Microstructure: Austenitic
Typical applications
  • Furnace equipment
  • Case hardening boxes
  • Valves and flanges
Product forms
Typical chemical composition, % by mass
  • C: 0.05
  • Cr: 17.3
  • Ni: 9.1
  • Mo: -
  • N: -
  • Others: Ti 

Buying precision strip?

Read our five most important considerations when purchasing precision strip.

Read the considerations

Precision strip also availble in Circle Green

Precision strip can also be purchased as Outokumpu Circle Green®, our biggest achievement in sustainability to date.

Read more about Circle Green

Deshalb Präzisionsband

  • Bearbeitete Kanten und stark eingeschränkte Korngrößen erhältlich
  • Umgeschmolzene Ausführung für besonders hohe Anforderungen an den Reinheitsgrad erhältlich.
  • Spezifizierte niedrige oder erhöhte Streckgrenze oder Zugfestigkeit
  • Prägung für individuellen Markenwert.
  • Multi-Ring in Endlosband für eine reibungslose Produktion erhältlich

Attribute 

  • Die häufigsten Güten sind austenitisch und ferritisch.
  • Martensit und Dura (auch bekannt als Ultrafort) sowie Duplex-Güten sind auf Anfrage erhältlich.
  • Breiten von 3 mm bis weniger als 650 mm
  • Dicken von 0,05 mm bis 1,50 mm

Präzisionsband

Präzisionsband wird in einer Vielzahl von Standard- und Spezial-Edelstahlgüten hergestellt. Die häufigsten Güten sind austenitisch und ferritischMartensitische ausscheidungshärbare (PH, precipitation hardenening) Edelstahl-Präzisionsbänder Dura 6908 (auch als Ultrafort 1.6908 bekannt) sind ebenfalls erhältlich Duplex -Güten sind auf Anfrage erhältlich.

Alle unsere Produkte werden in genau definierten Toleranzen bezogen auf Zugfestigkeit, Ebenheit, Oberflächentextur und mehr hergestellt. Die Produktabmessungen reichen von 3 bis weniger als 650 mm Breite und von 0,05 bis 1,50 mm Dicke. Präzisionsband aus Edelstahl von Outokumpu ist mit geprägten Oberflächen, entgrateten Kanten, vollständig abgerundeten Kanten, als aufgewickeltes Material, Endlosband und verzinkt erhältlich.

Outokumpu Präzisionsband – Banner

Kompetenz in der Produktion

Wir bieten unseren Kunden Präzisionsbandprodukte, die nach genau definierten Toleranzen in Zugfestigkeit, Planheit, Oberflächenausführung und mehr hergestellt werden. Die besonderen Eigenschaften des Präzisionsbandes können auf bestimmte Anwendungen ausgerichtet werden, einschließlich Streckgrenze, Zugfestigkeit, Korngröße und sogar Isotropie.

Elektroschlacke-Umschmelzmaterial (ESR, Electroslag Remelted) wird verwendet, wenn besonders reiner Edelstahl erforderlich ist. Für hohe Festigkeit und optimierte Federeigenschaften ist das Edelstahl-Präzisionsband in einer Vielzahl von Designs und Ausführungen erhältlich.