EN 10028-4 11MnNi5-3 Introduce
Different steel grades contained in EN 10028-4 standard are appreciated by customers due to their low carbon content and great weldability. EN 10028-4 11MnNi5-3 is currently used in a wide variety of industries, including construction, energy, mechanical engineering, pressure vessels and transport of fluids and it is highly valued for its durability and strength.
Smelting temperature:1526°C - 1515°C
Application:Flat products made of steels for pressure purposes - Part 4: Nickel alloy steels with specified low temperature properties
EN 10028-4 11MnNi5-3 Material Chemical Composition
The chemical composition of the EN 10028-4 11MnNi5-3 steel are as follows:
| Element | Min | Max |
|---|---|---|
| Niobium (Nb) | - | 0.0500 |
| Vanadium (V) | - | 0.0500 |
| Nickel (Ni) | 0.3000 | 0.8000 |
| PhOsphorus (P) | - | 0.0250 |
| Sulfur (S) | - | 0.0150 |
| Manganese (Mn) | 0.7000 | 1.5000 |
| Silicon (Si) | - | 0.5000 |
| Carbon (C) | - | 0.1400 |
EN 10028-4 11MnNi5-3 Material Mechanical Properties
EN 10028-4 11MnNi5-3 Toughness is the ability of a material to absorb energy before fracture. This property is important for applications that involve impact loads, such as automotive components. The toughness of EN 10028-4 11MnNi5-3 steel can range from 690 to 939 J/cm2, depending on the grade and conditions of manufacture.
The mechanical properties of the EN 10028-4 11MnNi5-3 steel are as follows:
| YieldRp0.2 | ≤ 449 (MPa) |
| TeileRm | ≤ 399 (MPa) |
| ImpactKV/Ku | 33(J) |
| ElongationA | 44% |
| Reduction in cross section on fractureZ | 33% |
| As-Heat-Treated Condition | Solution and Aging, Annealing, Ausaging, Q+T,etc |
| Brinell hardness (HBW) | 443 |
EN 10028-4 11MnNi5-3 Material Thermal Properties
The thermal performance parameters of the EN 10028-4 11MnNi5-3 steel are as follows:
| Temperature (°C) | 23 | 753 | 763 |
| Modulus of elasticity (GPa) | - | 998 | - |
| Mean coefficient of thermal expaion ×10-6/(°C) | - | - | 21 |
| Thermal conductivity (W/m·°C) | - | 22.3 | 41.2 |
| Specific thermal capacity (J/kg·°C) | - | 243 | - |
| Specific electrical resistivity (Ω mm²/m) | 0.22 | - | - |
| Deity (kg/dm³) | - | - | 244 |
| Poisson’s coefficient, ν | - | - | 133 |
EN 10028-4 11MnNi5-3 Material Machining Technology
Machining EN 10028-4 11MnNi5-3 steel offers a number of benefits when it comes to precisionmanufacturing.
First, this alloy provides higher strength and stiffness than most other alloys, making it necessary for components intended to operate under high loads and temperatures. Its superior stiffness and strength contribute to superior performance and durability for products in the aerospace, automotive, and other heavy industries.
Second, EN 10028-4 11MnNi5-3 steel is more resistant to corrosion than typical alloys, making it ideal for use in oil and gas industry applications where corrosive environments are present. This corrosion resistance is particularly important for components intended for use in seawater and other extreme environments.
Third, it has superior fatigue strength, which makes it the preferred material choice in the aerospace and automotive industries, where components are required to withstand extreme stresses and vibrations.
Fourth, its machinability is also high, allowing manufacturers to create precise components with tight-tolerances quickly and easily. This is ideal for meeting tight budget constraints, as it helps to reduce production time and waste.
Finally, unlike other materials, EN 10028-4 11MnNi5-3 steel can be easily recycled and reused, making it an environmental-friendly option for manufacturers who wish to reduce the environmental impact of their manufacturing processes.