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Structural Steel

Structural Steel Fabricators, Structural Steel Beams, Types of Structural Steel, Structural Steel Fabricators Near Me, Structural Steel Shapes, Structural Steel Grades, Structural Steel Weight, Structural Steel Manufacturers in Mumbai, India

At Dmsons Metal, we pride ourselves on our demonstrated expertise and extensive experience in working with a wide variety of metals, allowing us to meet the unique requirements of every customer. Being amongst the top 10 Structural Steel manufacturers in India, our diverse range of products boasts consistent dimensional accuracy, grades, and specifications, featuring tight tolerance for use in demanding applications such as hydraulic press manufacturing, dam gates, and cranes manufacturing. Trust us to deliver the quality and precision you need for your projects.

Steel Structure Example, Mechanical Properties of Structural Steel, Properties Of Structural Steel Pdf, Properties Of Structural Steel As Per Is Code, steel structure building, steel i beam sizes, Structural Steel Suppliers in Mumbai, India

Mild steel angles are L-shaped structural steel bars with two vertical legs of equal or imbalanced lengths. They are frequently used to provide support and stability in different construction projects. Mild steel angles have a wide range of applications, such as bracing, framing and reinforcing structures. 

Mild steel beams, also known as I-beams or H-beams, are horizontal structural steel members with a characteristic “I” or “H” shape. They are designed to carry and distribute loads along their length. These beams are frequently used in construction projects where the span or distance between supports.

Mild steel channels are C-shaped structural steel sections with two flanges and a web in between. The flanges are perpendicular to the web, giving the channel its diverse shape. These channels are frequently used to provide structural support in different applications, such as for framing, bracing

What is Structural Steel?

Structural steel is a type of steel that is precisely used for creating construction materials in different shapes. These shapes are designed to offer structural support and stability in buildings, bridges, industrial structures, and other construction projects. The most common form of structural steel is in the shape of elongated beams with specific cross-sectional profiles.

The use of structural steel in construction is highly regulated in most industrial countries. This includes standards that dictate the shapes, sizes, chemical composition, and mechanical properties, such as strength, that the steel must meet. These regulations ensure that the structural steel used in construction projects is safe, consistent, and suitable for its intended purpose.

Structural steel’s versatility, high strength-to-weight ratio, and durability make it a prevalent choice for a wide range of construction applications. Its ability to withstand heavy loads and forces without excessive deformation or failure makes it an important material for building robust and long-lasting structures. Structural steel is an essential part of modern construction practices and plays a vital role in shaping the built environment we live in today.

Dmsons Metal Pvt. Ltd. is a leading supplier and stockist of high quality Pipe such as Seamless Pipes and Structural Steel in Andheri Mumbai, India. Being among the prominent Structural Steel manufacturers in India, our company has played a vital role in the growth and development of the Indian market. We specialize in producing Structural Steel in various sizes, shapes, and specifications tailored to meet the unique needs of our valued clients. Structural Steel manufacturers in Mumbai ensure that the products are highly resistant to corrosion and cost-effective. Dmsons is a reputed Structural Steels manufacturer in India, renowned for dependability and top-notch quality in the Indian market.

Structural Steels Sizes Offered by Dmsons Metal Pvt Ltd
Mild Steel AngleMild Steel BeamMild Steel Channel
MS ANGLES 40 x 40 MMMS Beam 100 X 70 MMMS Channel 75 X 40 MM
MS ANGLES 45 x 45 MMMS Beam 120 X 58 MMMS Channel 100 X 50 MM
MS ANGLES 50 x 50 MMMS Beam 125 X 70 MMMS Channel 125 X 65 MM
MS ANGLES 65 x 65 MMMS Beam 150 X 75 MMMS Channel 150 X 75 MM
MS ANGLES 75 x 75 MMMS Beam 150 X 150 MM 
MS ANGLES 80 x 80 MMMS Beam 175 X 85 MM 
MS ANGLES 90 x 90 MMMS Beam 175 X 100 MM 
MS ANGLES 100 x 100 MMMS Beam 200 X 150 MM 
MS ANGLES 110 x 110 MM  
MS ANGLES 130 x 130 MM  
MS ANGLES 150 x 150 MM  
How is Structural Steel Made?

Structural steel is made through a procedure known as “steel manufacturing” or “steel production.” The procedure involves several stages, including the extraction of raw materials and the transformation of these materials into the final structural steel products. Here’s an overview of how structural steel is made:

  1. Raw Materials: The main raw materials used in steel manufacturing are iron ore, coal, and limestone. Iron ore is the primary source of iron, while coal is used as a fuel and a reducing agent to eliminate oxygen from the iron ore during the smelting procedure. Limestone helps to remove impurities from the molten iron.
  2. Ironmaking: The ironmaking procedure begins with the extraction of iron ore from mines. The ore is then crushed and refined to remove impurities. The refined iron ore, along with coke (a product of coal), and limestone are mixed and charged into a blast furnace. The blast furnace functions at very high temperatures, causing the chemical reactions that separate the iron from the other elements. Molten iron collects at the bottom of the furnace and is periodically tapped off.
  3. Steelmaking: The molten iron acquired from the blast furnace is further processed to produce steel. This process can be done through two main methods: the basic oxygen furnace (BOF) or the electric arc furnace (EAF). In the BOF method, the molten iron is combined with scrap steel and then oxygen is blown through the mixture, reducing impurities and converting it into steel. In the EAF method, recycled scrap steel is melted using electric arcs to create steel.
  4. Casting and Solidification: After the steel is made, it is cast into different shapes, including beams, channels, angles, and other structural profiles. The molten steel is poured into molds, where it cools and solidifies to take the desired shape.
  5. Rolling and Forming: The hardened steel is then processed through rolling mills and other forming machines to achieve the particular dimensions and cross-sectional shapes required for structural steel products. This process involves passing the steel through a series of rollers to reduce its thickness and shape it into the desired profile.
  6. Heat Treatment and Finishing: Some structural steel products may undergo heat treatment processes to enhance their mechanical properties, such as strength and toughness. Additionally, the steel may be subjected to surface treatments like galvanizing or painting to improve corrosion resistance and appearance.
  7. Quality Control: Throughout the entire manufacturing process, rigorous quality control measures are implemented to ensure that the structural steel meets the required standards and specifications.

Once the structural steel is manufactured and passes the quality checks, it is ready to be transported and used in several construction projects, providing essential support and stability to buildings, bridges, and other structures.

Structural Steel Properties

Structural steel possesses several key properties that make it an ideal material for use in construction and structural applications. Some of the essential properties of structural steel include:

  1. Ductility: Structural steel is ductile, which means it can deform or stretch under stress without breaking. This property allows the material to absorb energy and redistribute loads, making it more resistant to sudden shocks and impacts.
  2. High Strength: It has a high strength-to-weight ratio, which means it can support significant loads while being relatively lightweight. This property allows for the creation of robust and durable structures without adding excessive weight.
  3. Elasticity: Structural steel is elastic, meaning it can return to its original shape after the applied load is removed. This elasticity allows structures to deform temporarily under load and then spring back to their original positions once the load is removed, maintaining their integrity.
  4. Weldability: It is weldable, allowing different components to be joined together efficiently through welding processes. This characteristic enables the fabrication and assembly of complex structures, making it a preferred material for various construction projects.
  5. Sustainability: Structural steel is a sustainable material as it is recyclable and can be used in multiple applications over its lifecycle. Its recycling rate is high, contributing to reduced environmental impact and resource conservation.
  6. Corrosion Resistance: While not integrally corrosion-resistant like stainless steel, it can be protected from corrosion through coatings, such as paint or galvanization. Proper corrosion protection ensures the longevity and durability of the structures, especially in outdoor and harsh environments.
  7. Toughness: Structural steel exhibits toughness, allowing it to withstand forces and influences without fracturing or failing catastrophically. Its ability to absorb energy and deform plastically before fracturing makes it highly reliable in withstanding varying loads.
  8. Fire Resistance: Structural steel exhibits excellent fire resistance compared to many other construction materials. It retains its strength at high temperatures, allowing it to withstand fire and maintain structural integrity for extended periods, providing valuable evacuation time and reducing fire-related risks.
  9. Cost-Effectiveness: Structural steel is cost-effective due to its widespread availability, recyclability, and efficient manufacturing processes. Its high strength and relatively low cost make it an economical choice for construction projects.

Overall, the combination of these properties makes structural steel an ideal choice for various construction projects, ranging from buildings and bridges to industrial structures and infrastructure, where strength, durability, and efficiency are essential factors.

What are Structural Steels used for?

Structural steels are widely used in various construction and engineering applications due to their excellent properties and versatility. Some of the primary uses of structural steels include:

  1. Architectural Applications: In architectural projects, structural steels are used to create innovative and aesthetically pleasing designs, such as exposed steel elements, modern facades, and open-plan interiors.
  2. Building Construction: Structural steels form the backbone of modern buildings, providing the framework for skyscrapers, residential buildings, commercial complexes, and industrial facilities. They are used in columns, beams, and other load-bearing elements to support the weight of the structure and distribute loads efficiently.
  3. Industrial Structures: In industrial settings, structural steels are used to create sturdy structures for factories, warehouses, power plants, refineries, and other industrial facilities. They provide a safe and reliable framework for housing heavy machinery and equipment.
  4. Infrastructure Projects: Structural steels play a crucial role in various infrastructure projects, such as airports, railway stations, stadiums, and exhibition centers, where they offer the necessary support and stability for large-scale structures.
  5. Bridges: Structural steels are extensively used in bridge construction, where they provide the required strength and stability to span long distances and carry heavy traffic loads. Steel bridges are known for their durability, ease of construction, and cost-effectiveness.
  6. Offshore Structures: In the offshore industry, structural steels are used to build platforms, rigs, and other offshore structures that can withstand harsh marine environments and support drilling and production operations.
  7. Transmission Towers: Structural steels are used to construct transmission towers for electricity and communication networks. These towers provide support for high-voltage power lines and communication antennas.
  8. Machinery and Equipment: Structural steels are used in the construction of various types of machinery and equipment, including cranes, material handling systems, agricultural machinery, and mining equipment.
  9. Railways: Structural steels are employed in railway infrastructure, including tracks, bridges, and station structures, due to their high load-bearing capacity and durability.
  10. Automotive Industry: Structural steels are used in the automotive sector to manufacture vehicle frames and chassis, providing the necessary strength and safety features to withstand collisions and impacts.
  11. Temporary Structures: Structural steels are also used in temporary structures, such as scaffolding and formwork during construction projects.

The versatility, strength, and other favorable properties of structural steels make them an essential material in the construction industry, supporting a wide range of applications and contributing to the development of modern infrastructure and urban landscapes.

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Market Area

We Supply Structural Steels in listed cities in India: –

Mumbai, Bengaluru, Chennai, Hyderabad, Kolkata, New Delhi, Pune, Ahmedabad, Jaipur, Surat, Salem, Gandhinagar, Bhiwandi, Tiruppur, Sivakasi, Jamnagar, Thiruvananthapuram, Rajahmundry, Bhubaneswar, Vijaywada, Firozabad, Bokaro Steel City, Rajkot, Bharuch, Panna, Raipur, Cochin, Ludhiana, Panipat, Durgapur, Peenya, Pimpri-Chinchwad, Channapatna, Kharagpur, Nashik, Bareilly, Varanasi, Haldia, Rourkela, Bangalore, Moradabad, Indore, Visakhapatnam, Trivandrum, Pithampur, Dibrugarh, Angul, Gwalior, Coimbatore, Kannur, Nagpur, Vadodara, Rudrapur, Noida, Agra, Bhagalpur, Jamshedpur, Bhilai, Ratnagiri, Kanpur, Thane, Bhopal, Durg-Bhilainagar, Jabalpur, Lucknow, Ghaziabad

Trademark Notice: – Please be advised that this website is for promotional purposes only and some of the names used on our website are trade names and/or trademarks of specific manufacturers, and Dmsons Metal Pvt. Ltd. is not affiliated with any manufacturer(s). We want to clarify that the supplies we provide are made to meet customer specifications from any of the available source(s). The use of trade names or trademarks has been done solely for reference purpose and to help customers identify products consistent with the listed specifications.

Please note that Inconel, Incoloy, and Monel are registered trademarks of the Special Metals Group of Companies, Hastelloy is a registered trademark of Haynes International, 254 SMO is a trademark owned by Outokumpu Stainless, Hardox® is a registered trademark of SSAB, and Sanicro 28 is a registered trademark of Sandvik AB. We do not claim any ownership or association with these trademarks and they are used only for informational purposes.