Structural Steel

Structural Steel in North Bay

Structural Steel is one of the most studied and well-understood materials in the construction sector. Concrete's relatively lower tensile strength and ductility make structural steel an ideal reinforcement component.
Its behavior is consistent and justifies a variety of standards and norms set by organizations like the American Institute of Steel Construction (AISC).
This steel can create a skeleton that binds everything together in the construction industry.

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The attribute of ductility in structural steel is essential. It provides for stress redistribution in continuous members as well as at high-local-stress sites such as gaps or other irregularities.

Although structural steel is always employed less than its yield point (in the elastic region), ductility is a critical quality since it gives a stark warning before outright failure, reducing the severity of the failure.


Structural Steel is among the most re-utilized materials on the planet, as it is 100 percent recyclable. Carbon steel, high-strength low-alloy (HSLA) steel, heat-treated carbon steel, and heat-treated constructional alloy steel are several types of steel available. However, even such a robust material has its shortcomings.

Fire Resistance

Fire resistance is another crucial characteristic of this steel. When the temperature set by the standard is attempted, the fire-resistance rating is determined.

To prevent the corrosion of structural steel in the case of a fire, it requires external protection, also known as insulating. When heated, steel expands and becomes softer, eventually losing its fundamental dependability.

Insulation is combined to meet building codes’ fundamental fire protection requirements.


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    How is Structural Steel different from regular mild steel?

    The main distinction between structural and mild steel is in their applications. Carbon content, quality, flexibility, pliability, and affordability are key factors to consider.

    #1 Composition

    Structural Steel possesses higher carbon content than mild steel, which is used for a variety of small to large applications such as vehicle bodies, food cans, and building parts. Heat and mechanical medicines create structural steel, while machines, shapers, and drilling machines mold mild steel into specific structures.

    Only iron and carbon are present in structural steel. Manganese, silicon, aluminum, nickel, copper, and other metals may be available in some instances. Carbon, manganese, silicon, and sulfur are all available in mild steel.

    #2 Carbon Content

    Mild steel, characterized by its carbon content, is commonly used for assembling cutting machines and eventually bites the dust. Due to its familiarity with tooling and welding, it is commonly used for development in the same way as structural steel constructions are.

    Alloy Structural Steel is currently one of the widely used types of steel, but this also depends on the builder’s purpose. Chromium steel is frequently used in constructing automobiles and aviation parts for its quality, hardness, and flexibility.

    #3 Usability

    Structural Steel is used to create a wide range of construction materials. Several structural steel shapes have a profile of a specific cross area and seem like a long pillar.

    Today, most industrially-developed nations determine structural steel chemical components, forms, dimensions, and mechanical properties such as preservation procedures, strengths, and so forth.

    #4 Heat Insulation

    Steel will melt if enormous energy is provided to it. That’s why, by employing insulating materials, the manufacturer can reduce the rate of heat transmission to steel. Solid constructions may then be able to withstand fire damage without additional insulation.

    The builders use insulation in routes and regions where a hydrocarbon fire is likely to break out. On the other hand, mild steel isn’t a combination of steel. Thus, it doesn’t have a lot of other elements than iron like chromium, molybdenum, or other metallic alloys.

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    Why Choose TopSteel for Structural Steel in North Bay?

    • If you believe in employing high-end quality materials, then Topsteel is the right destination for you. Currently, we are one of the top companies that deal in premium Structural Steel in North Bay.

    • Our team holds expertise in picking high-grade steel and facilities for you so that only the best service reaches your doorstep. Today, because of our loyal customers, we take pride in saying that we are one of the leading steel suppliers across Canada.

    • Our experts follow comprehensive research and tests to minimize any casualties. Besides steel supplying, we provide other crucial services like design and engineering, profile cutting, welding, sandblasting & painting, and steel detailing.

    • If you would like to benefit from our services, you can ping us on our contacts below. Also, if you would like to explore more about us, you can scroll through our website and learn about our services.


    A992 Steel, made from recycled metals, makes up 80 percent of structural steel members. This member material is less expensive and has a higher strength-to-weight ratio than steel members formerly employed.
    The CISC Code of Standard Practice for Structural Steel is a collection of industry best practices for structural steel design, production, and assembly. These techniques vary over time as newer technologies replace older ones.
    CSA S16-14 Design of Steel Structures, eighth edition, establishes design requirements, manufacture, and erection of steel structures and structural steel elements used in the building materials.
    Structural Steel costs $15 to $30 per square foot for steel buildings. Steel prices fluctuate according to market conditions and demand around the world. The material’s cost is affected by supply and demand.