CuAl9Ni3Fe2 Steel Plates DIN EN 1653 2000 X 1000 X 3 MM

Sep 10, 2025 Leave a message

Product Item: Nickel Aluminum Bronze Plate, CuAl9Ni3Fe2 Plate
Material Standard: DIN EN 1653
Material Grade: CuAl9Ni3Fe2
Dimensions: 2000 MM x 1000 MM x 3 MM

 

The CuAl9Ni3Fe2 Steel Plates, made from Nickel Aluminum Bronze, are manufactured to the DIN EN 1653 material standard.

 

With dimensions of 2000 x 1000 x 3 mm, these plates offer excellent corrosion resistance, strength, and durability, making them ideal for marine, aerospace, and industrial applications.

 

CuAl9Ni3Fe2 DIN EN 1653

We can provide a variety of regular size DIN CuAl9Ni3Fe2 DIN EN 1653 steel plates, DIN CuAl9Ni3Fe2 DIN EN 1653 steel coils, DIN CuAl9Ni3Fe2 DIN EN 1653 steel bars, structural steel, if you have special requirements, please contact us to provide you with customized services.

We also provide DIN CuAl9Ni3Fe2 DIN EN 1653 processing services, according to the requirements and drawings provided by customers, customized processing parts for various needs.

 

DIN CuAl9Ni3Fe2 DIN EN 1653 Introduction

We are DIN CuAl9Ni3Fe2 DIN EN 1653 supplier and exporter, DIN CuAl9Ni3Fe2 DIN EN 1653 producer and stock keeper. For the commonly used size , we usually have stock resources and arrange delivery within 10 days. DIN CuAl9Ni3Fe2 DIN EN 1653 is fist product of our company. Our not only enjoys first class quality on the market, but also competitive with reasonable price and thoughtful after service. Over the past 20 years, Our DIN CuAl9Ni3Fe2 DIN EN 1653 products are exported to more than 70 countries and areas.

Application: Copper and copper alloys - materials such as steel plates for boilers, pressure vessels and hot water storage devices.

Heat treated: 1813°C - 1447°C.

 

DIN CuAl9Ni3Fe2 DIN EN 1653 Mechanical properties

Yield
Rp0.2 (MPa)
Tensile
Rm (MPa)
Impact
KV/Ku (J)
Elongation
A (%)
Reduction in cross section on fracture
Z (%)
As-Heat-Treated Condition Brinell hardness (HBW)
837 (≥) 241 (≥) 34 12 42 Solution and Aging, Annealing, Ausaging, Q+T,etc 342

 

 

DIN CuAl9Ni3Fe2 DIN EN 1653 Physical properties

The following lists give DIN CuAl9Ni3Fe2 DIN EN 1653 properties such as physical properties, density, thermal expansion.

Temperature
(°C)
Modulus of elasticity
(GPa)
Mean coefficient of thermal expansion 10-6/(°C) between 20(°C) and Thermal conductivity
(W/m·°C)
Specific thermal capacity
(J/kg·°C)
Specific electrical resistivity
(Ω mm²/m)
Density
(kg/dm³)
Poisson's coefficient, ν
22 - -     0.23 -  
322 284 - 23.3 112   -  
593 - 44 34.2     314 221

 

DIN CuAl9Ni3Fe2 DIN EN 1653 Processing Service

Rolling Machine

CuAl9Ni3Fe2 Steel Plate Rolling Machine

Cutting Machine

CuAl9Ni3Fe2 Steel Plate Cutting Machine

Multi-Drilling Machine

CuAl9Ni3Fe2 Steel Plate Multi-Drilling Machine

Deep-Hole Drilling Machine

CuAl9Ni3Fe2 Steel Plate Deep-Hole Drilling Machine

Portal-type Processing Center

CuAl9Ni3Fe2 Steel Plate Portal-type Processing Center

Floor-type Milling-boring Machine

CuAl9Ni3Fe2 Steel Plate Floor-type Milling-boring Machine

DIN EN 1653 Other grades or similar grades

Grade Standard Area Content
CuZn38Sn1As DIN EN 1653 Germany Copper and copper alloys - materials such as steel plates for boilers, pressure vessels and hot water storage devices
CuZn39Sn1 DIN EN 1653 Germany Copper and copper alloys - materials such as steel plates for boilers, pressure vessels and hot water storage devices
CW304G DIN EN 1653 Germany Copper and copper alloys - materials such as steel plates for boilers, pressure vessels and hot water storage devices
CuAl10Ni5Fe4 DIN EN 1653 Germany Copper and copper alloys - materials such as steel plates for boilers, pressure vessels and hot water storage devices
CuZn38AlFeNiPbSn DIN EN 1653 Germany Copper and copper alloys - materials such as steel plates for boilers, pressure vessels and hot water storage devices
CW717R DIN EN 1653 Germany Copper and copper alloys - materials such as steel plates for boilers, pressure vessels and hot water storage devices

 

Broadly, the nickel aluminium bronzes can be classifed as allovs containing 6-139b aluminium and up to 79b iron and 79b nickel. The more common aloys normaly contan 3-6% each ot these two elements, manganese up to aporoxmately 15% is also added, both as a deoxidant and a strenothening element. There is a separate family of aloys which contain up to 14% manganese with additions of iron and nickel. They are called here manganese aluminium bronzes.

 

Alloys CW302G CW303G CW304G CW306G CW307G and CW308G CW305G are nickel aluminium bronzes.

 

CW302G CW303G CW304G CW306G CW307G and CW308G CW305G Specification BS EN 12165 Wrought Forgings 6-80 mm Diameter

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Properties of Common Wrought Nickel Aluminium Bronzes BS EN 12163 CW307G ASTM B150 C63000 AMS 4640 C63000

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The main application for nickel aluminium bronze in the aerospace sector is landing gear bearings for the world's fleet of commercial aircraft. The excellent bearing properties against steel, corrosion resistance in salt conditions during de-icing of runways in winter and high mechanical properties make it an ideal alloy for this application.

 

The main specifications are AMS 4640, AMS 4880, AMS 4881 and AMS 4590, BS2 B 23, NFL14-702, NFL14-705 and NFL14-706 (see Tables App1-22 in the Appendix). The aircraft companies and main subcontractors also have their own specifications, for example Airbus ASN-A 3406, ASN-A 3315, ASN-A6127A and Rolls Royce MSRR 8503.

 

Landing gear and wing flap bearings

Landing gear and wing flap bearings

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Routine maintenance of landing gear

 

In addition to landing gear bearings, applications include wing flap bearings, door hardware, wheel bearings, hydraulic actuators, valves, steering joints and helicopter controls.

 

In general, alloys C63000 to AMS 460, AMS 4880 or BS2 B 23 are used for the majority of the landing gear applications. For high load and greater wear requirements, the cast AMS 4881 and wrought AMS 4590 can be used.

 

Alloys for architectural applications: • In the wrought form ASTM B150 C63200, C63000 • In cast form BS EN 1982:2008 CC333G

 

Desalination and Water Condenser Systems

This industry is an important outlet for nickel aluminium bronze for pumps, valves, water boxes, impellers, condenser tube plates and housings. It is used for elevated temperatures up to approximately 325°C in high pressure condenser systems. It can be used for pumping seawater to a recommended level of 4.3 m/sec, which exceeds that tolerated by 90-10 and 70-30 copper-nickel. Although the aluminium bronzes do not have the biofouling resistance of the copper-nickels, they still have a high resistance to marine growth

Condenser tube plates

Condenser tube plates

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Condenser top cover

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Regulator valve 9000 kg

- Valve body 2000 mm dia 6000 kg

Valve body 2000 mm dia 6000 kg

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Pelta Runner

 

There is a range of alloys used in the desalination and water condenser sector:

  • For sand castings, the nickel aluminium bronze usually used is CC333G (AB2)
  • For forgings and bar products BS EN 12420 CW307G and BS EN 12163 CW307G
  • For plate products used in the heat exchange and desalination industry BS EN 1653 CW307G and ASTM B 171 C63000
  • For maximum corrosion resistance UK Def Stan 02-833

 

Material:70/30 Copper-nickel

Corrosion Resistance:

  • Good in atmospheric and immersion conditions
  • General corrosion <0.025 mm/year
  • Pitting corrosion <0.13 mm/year

Notes:

  • High resistance to stress corrosion cracking
  • Good resistance to biofouling
  • Limits on acceptable seawater velocity: 1.0-4.6 m/s

Material:90/10 Copper-nickel

Corrosion Resistance:

  • Good in atmospheric and immersion conditions
  • General corrosion <0.025 mm/year
  • Pitting corrosion <0.13 mm/year

Notes:

  • High resistance to stress corrosion cracking
  • Biofouling resistance better than 70/30 copper-nickel
  • Limits on acceptable seawater velocity: 1.0-3.7 m/s