Carbon Steel Manufacturer
Carbon steel remains a cornerstone in various manufacturing processes due to its versatility and wide-ranging applications. Composed predominantly of iron and carbon, with carbon content ranging from 0.05% to 2.1% by weight, carbon steel’s properties are significantly influenced by its carbon content, making it a preferred choice across numerous industries.
Adaptability and Customization
Beyond its elemental composition, carbon steel is renowned for its adaptability in fabrication and customization. Its ease of forming, welding, and machining allows manufacturers and fabricators to create intricate shapes and structures to exact specifications. This adaptability positions carbon steel as an excellent material for diverse applications, including construction, automotive, machinery, and equipment manufacturing.
Applications in Construction and Beyond
In construction, carbon steel plays a vital role in fabricating structural components such as beams, columns, and girders. Its remarkable strength-to-weight ratio makes it an optimal choice for creating robust and dependable structures. Additionally, carbon steel pipes and tubes are widely utilized in plumbing, heating, ventilation, and air conditioning (HVAC) systems, as well as for fluid and gas transportation.
Ashapura Steel: Your Trusted Partner for Carbon Steel Products
At Ashapura Steel, we present a comprehensive range of carbon steel products, including pipes, tubes, sheets, plates, and fittings. Our inventory includes various grades and specifications, ensuring we provide the perfect solution for your unique requirements. Whether you seek carbon steel for structural applications, machining, construction, or any other purpose, Ashapura Steel delivers the ideal product to meet your specifications.
Some common types of carbon steel include
Low Carbon Steel (Mild Steel)
- Contains less than 0.3% carbon.
- Often used for structural applications due to its ductility and ease of forming.
Medium Carbon Steel
- Contains between 0.3% and 0.6% carbon.
- Used for forging and applications requiring a balance of strength and ductility.
High Carbon Steel
- Contains between 0.6% and 1.5% carbon.
- Ideal for cutting tools and applications requiring high hardness and wear resistance.
Properties of Carbon Stainless steel
- High Strength
- Carbon steel’s high tensile strength makes it suitable for heavy-duty applications.
- Ductility
- Easily shaped and molded into various forms due to its ductility.
- Hardness
- High level of hardness makes it resistant to wear and tear.
- Weldability
- Easy to weld, making it a popular choice in many manufacturing applications.
Carbon Steel Grades & Features
| Grade | Carbon Content | Features |
|---|---|---|
| 1010 | 0.08% | Low carbon steel with good weldability and ductility |
| 1020 | 0.18% | Low carbon steel with good machinability and weldability |
| 1045 | 0.45% | Medium carbon steel with good strength and wear resistance |
| 1060 | 0.60% | High carbon steel with high strength and hardness |
| 1095 | 0.95% | High carbon steel with very high hardness and wear resistance |
| A36 | 0.26% | Low carbon steel with good strength and ductility, commonly used in structural applications |
| A572 | 0.23% | High strength, low alloy steel commonly used in construction and heavy equipment |
| 4140 | 0.40% | Chromium-molybdenum alloy steel with high strength, toughness, and wear resistance, commonly used in manufacturing and construction |
Physical Properties of Carbon Steel
| Property | Description | Unit of Measurement |
|---|---|---|
| Density | Mass per unit volume | kg/m3 |
| Melting Point | Temperature at which the material melts | °C |
| Thermal Conductivity | Ability of a material to conduct heat | W/mK |
| Electrical Conductivity | Ability of a material to conduct electricity | MS/m |
| Specific Heat | Amount of heat required to raise the temperature of the material by one degree Celsius | J/kgK |
Mechanical Properties of Carbon Steel
| Property | Description | Unit of Measurement |
|---|---|---|
| Tensile Strength | Maximum stress that a material can withstand before breaking | MPa |
| Yield Strength | Stress at which a material begins to deform plastically | MPa |
| Elongation | Increase in length of a material when subjected to a tensile force | % |
| Modulus of Elasticity | Measure of a material's stiffness | GPa |
| Hardness | Measure of a material's resistance to deformation or scratching | Vickers, Rockwell, or Brinell |
