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Properties and Overview of Mild Steel EN3B
Overview:
Mild Steel , also known as low-carbon steel, is a widely used material known for its affordability, versatility, and ease of fabrication. Its low carbon content, typically below 0.25%, combines adequate strength with high ductility, making it ideal for a broad range of applications. Its ability to be welded, machined, and shaped without losing structural integrity makes it one of the most common forms of steel in construction, manufacturing, and general engineering.
Production:
The production of mild steel begins with iron ore extraction, which is processed in a blast furnace to produce pig iron. This is followed by refining the pig iron in a basic oxygen furnace or an electric arc furnace to reduce impurities and adjust the carbon content to the desired levels. Additional alloying elements such as manganese, silicon, or chromium may be added in small quantities to improve specific properties like toughness or corrosion resistance. Once the molten steel is prepared, it is cast into slabs, billets, or blooms and then rolled into sheets, bars, or other desired shapes. Post-production processes such as galvanizing, heat treating, or coating can further enhance the durability or corrosion resistance of the steel.
Applications:
Mild steel is used extensively across industries due to its balance of affordability and functionality. It is a key material for structural components such as beams, columns, and reinforcement bars, where its strength and malleability are crucial. It is also used in manufacturing pipes, fences, and gates, as well as in machinery frames and automotive body panels. The material's weldability makes it an excellent choice for fabricating tanks, containers, and other large structures. In addition, mild steel serves as a base material for tools and appliances where hardness and extreme durability are less critical but where cost efficiency is essential. Its availability in various forms, such as sheets, plates, and rods, ensures its adaptability to diverse engineering and design requirements.
While mild steel's low carbon content contributes to its ductility and ease of work, it does have limitations, such as lower hardness and resistance to wear compared to high-carbon or alloy steels. However, these drawbacks are often mitigated by surface treatments or protective coatings like galvanization, which enhances its lifespan in corrosive environments. Additionally, its recyclability aligns with modern sustainability goals, as scrap mild steel can be repurposed into new products with minimal environmental impact.
Summary:
Mild steel is a fundamental material that underpins many aspects of modern industry and infrastructure. Its strength, ductility, and cost-effectiveness have made it indispensable in construction, manufacturing, and engineering applications. As industries prioritize performance and sustainability, mild steel remains a reliable and adaptable material, ensuring its enduring importance in the global market.
See a comprehensive list of electrical, mechanical, physical and thermal properties for Mild Steel EN3B below:
Electrical Properties of Mild Steel EN3B
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Mechanical Properties of Mild Steel EN3B
| Mechanical Property (Units) | Value |
|---|---|
| Mild Steel EN3B Compressive Strength (MPa) | ~700 |
| Mild Steel EN3B Ductile to Brittle Transition Temperature (°C) | ~0 to -40 |
| Mild Steel EN3B Fatigue Limit (MPa) | 130 to 180 |
| Mild Steel EN3B Fracture Toughness (MPa·√m) | ~50 to 80 |
| Mild Steel EN3B Hardness Brinell | 110 to 160 |
| Mild Steel EN3B Hardness Rockwell | 65 to 80 HRB |
| Mild Steel EN3B Hardness Vickers | 120 to 180 |
| Mild Steel EN3B Heat Deflection Temperature (°C) | N/A - Not a Polymer |
| Mild Steel EN3B Modulus of Elasticity / Young's Modulus (GPa) | 200 |
| Mild Steel EN3B Percent Elongation (%) | 20 to 25 |
| Mild Steel EN3B Poissons Ratio | 0.29 |
| Mild Steel EN3B Shear Modulus (GPa) | 77 |
| Mild Steel EN3B Shear Strength (MPa) | 180 to 230 |
| Mild Steel EN3B Ultimate Tensile Strength (MPa) | 360 to 550 |
| Mild Steel EN3B Yield Strength (MPa) | 280 |
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Physical Properties of Mild Steel EN3B
| Physical Property (Units) | Value |
|---|---|
| Mild Steel EN3B Boiling Point at Atmospheric Pressure (°C) | Unknown |
| Mild Steel EN3B Chemical Composition (Element %) | C ≤ 0.18%, Mn ≤ 0.80%, Si ≤ 0.05%, P ≤ 0.050%, S ≤ 0.050%, Fe balance |
| Mild Steel EN3B Cost ($/kg) | 0.7 to 1.5 |
| Mild Steel EN3B Density at 'Standard Temperature and Pressure' (kg/m3) | 7850 |
| Mild Steel EN3B Glass Transition Temperature at Atmospheric Pressure (°C) | N/A - Not a Polymer |
| Mild Steel EN3B Melting Point at Atmospheric Pressure (°C) | 1425 to 1460 |
| Mild Steel EN3B Polymer Family | N/A - Not a Polymer |
| Mild Steel EN3B Refractive Index | Unknown |
| Mild Steel EN3B Specific Gravity | 7.85 |
| Mild Steel EN3B Viscosity at Melting Point (mPa·s) | 4 to 7 |
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Thermal Properties of Mild Steel EN3B
| Thermal Property (Units) | Value |
|---|---|
| Mild Steel EN3B Coefficient of Thermal Expansion (µm/m·K) | 11.7 |
| Mild Steel EN3B Emissivity Coefficient | 0.35 to 0.40 |
| Mild Steel EN3B Specific Heat Capacity (J/kg·K) | 475 |
| Mild Steel EN3B Thermal Conductivity (W/m.K) | 51 |
| Mild Steel EN3B Thermal Conductivity (BTU/h·ft·°F) | 29.49 |
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