DIN 17743 Grade LC-NiCu30Fe soft annealed (+A)

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Description

The material LC-NiCu30Fe with the material number 2.4361 is applied in the form of strips, sheets, tubes, bars, wires and forgings for corrosion-resistant construction components. It is a variant of the NiCu30Fe (2.4360) with lowered C-content (0,04 % C maximum). LC-NiCu30Fe is resistant to intercrystalline corrosion and stress cracking corrosion. Like the material NiCu30Fe (2.4360), this material shows favourable mechanical and corrosion-chemical properties. It possesses good strength and toughness as well as good durability in hydrofluoric acid, sulphuric acid, non-oxidizing diluted acids, lyes and salt solutions, organic acids as well as in dry gases like oxygen, chlorine, hydrogen chloride, sulphur dioxide and carbon oxide. In the presence of components with an oxidizing effect like iron salts or copper salts, the use of the material is not to be recommended. Application in the offshore technology, e.g. for capacitors, pipelines, plating and valves and fittings, for plants of the chemical and petrochemical manufacturing technology, e.g. centrifuges in salt processing plants, for plants and construction components of ships, e.g. valves, fire extinguishing systems, pumps and water propeller shafts, in the energy technology, e.g. high-pressure feed-water heaters and coolers, in the environmental technology, e.g. evaporation plants and crystallizers in the sewage technology. Processing properties: Formability: very good Weldability: good

Related Standards

Equivalent Materials

This material data has been provided by WIAM.

"Typical" values were obtained via a literature search. "Predicted" values were imputed via artificial intelligence technology. While we have placed significant efforts in ensuring data accuracy, "typical" and "predicted" data should be considered indicative and verified by appropriate material testing. Please do contact us if additional information on the the predicted data method is required.
All metrics apply to room temperature unless otherwise stated. SI units used unless otherwise stated.
Equivalent standards are similar to one or more standards provided by the supplier. Some equivalent standards may be stricter whereas others may be outside the bounds of the original standard.

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Properties

General

PropertyTemperatureValue

Density

20.0 °C

8.8 g/cm³

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Mechanical

PropertyTemperatureValue

Elastic modulus

20.0 °C

182 GPa

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100.0 °C

180 GPa

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200.0 °C

177 GPa

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300.0 °C

170 GPa

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400.0 °C

165 GPa

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500.0 °C

150 GPa

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Elongation

20.0 °C

35 %

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Elongation A100

20.0 °C

20 - 30 %

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Hardness, Brinell

20.0 °C

120 - 140 [-]

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Tensile strength

20.0 °C

400 - 500 MPa

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Yield strength Rp0.2

20.0 °C

160 MPa

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Yield strength Rp1.0

20.0 °C

185 MPa

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Thermal

PropertyTemperatureValueComment

Coefficient of thermal expansion

100.0 °C

1.39E-5 1/K

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200.0 °C

1.55E-5 1/K

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300.0 °C

1.58E-5 1/K

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400.0 °C

1.6E-5 1/K

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500.0 °C

1.63E-5 1/K

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600.0 °C

1.66E-5 1/K

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700.0 °C

1.7E-5 1/K

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800.0 °C

1.74E-5 1/K

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900.0 °C

1.77E-5 1/K

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Melting point

1170 - 1365 °C

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Typical for Nickel Copper Alloy

Specific heat capacity

20.0 °C

427 J/(kg·K)

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100.0 °C

445 J/(kg·K)

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200.0 °C

465 J/(kg·K)

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300.0 °C

478 J/(kg·K)

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400.0 °C

490 J/(kg·K)

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Thermal conductivity

20.0 °C

21.8 W/(m·K)

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100.0 °C

29.5 W/(m·K)

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200.0 °C

33 W/(m·K)

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300.0 °C

36.5 W/(m·K)

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400.0 °C

40 W/(m·K)

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500.0 °C

44 W/(m·K)

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600.0 °C

48.5 W/(m·K)

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700.0 °C

52 W/(m·K)

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800.0 °C

56 W/(m·K)

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900.0 °C

58 W/(m·K)

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Electrical

PropertyTemperatureValue

Electrical resistivity

20.0 °C

5.47E-7 Ω·m

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100.0 °C

5.4E-7 Ω·m

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200.0 °C

5.55E-7 Ω·m

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300.0 °C

5.75E-7 Ω·m

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400.0 °C

5.85E-7 Ω·m

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500.0 °C

6E-7 Ω·m

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600.0 °C

6.18E-7 Ω·m

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700.0 °C

6.35E-7 Ω·m

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800.0 °C

6.55E-7 Ω·m

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900.0 °C

6.75E-7 Ω·m

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Chemical properties

PropertyValue

Aluminium

0.5 %

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Carbon

0.04 %

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Cobalt

1 %

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Copper

28 - 34 %

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Iron

1 - 2.5 %

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Manganese

2 %

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Nickel

62 %

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Silicon

0.3 %

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Sulfur

0.02 %

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Titanium

0.3 %

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