Choosing the Right Steel Sections for Your Project

31 March

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Introduction

Steel is often the material of choice in the world of construction, but with so many different types of steel sections available, selecting the right ones for your project can be a daunting task.

In this blog, we explore the common types of steel sections, the key factors to consider when choosing them, and how to match them to your design requirements effectively.

Common Steel Section Types

Steel sections come in a variety of shapes and sizes, each with their own characteristics and applications. Some of the most commonly used steel sections in construction include:

• I-beams: also known as H-beams or W-beams, I-beams are characterised by their distinctive 'I' shape and are widely used as main structural members in buildings, bridges, and industrial structures. They offer excellent load-bearing capacity and resistance to bending and are available in a wide range of sizes.
• Channels: channel sections have a C-shaped cross-section and are often used as structural members, especially in roof and floor construction. They can be used singly or as compound sections by joining two channels back-to-back.
• Angles: angle sections, with their L-shaped cross-section, are versatile and can be used for various purposes such as bracing, framing, and supporting members. They are commonly used in combination with other sections to create stronger and more rigid structures.
• Hollow sections: these include square, rectangular, and circular tubes or pipes. Hollow sections are popular for their high strength-to-weight ratio, making them ideal for columns, trusses, and other load-bearing applications where weight is a concern.

These are just a few examples of the many steel sections available. Each type has its own set of properties, dimensions, and applications, which should be carefully considered when selecting the appropriate sections for your project.

Key Factors to Consider

Choosing the right steel sections involves weighing several important factors. Here are some key considerations:

• Strength and load capacity: one of the primary factors to consider is the required strength and load capacity of the steel sections. This will depend on the design loads, spans, and other structural requirements.
• Weight restrictions: in some projects, weight is a critical factor, especially in applications such as bridges, high-rise buildings, or transportation structures. Choosing lighter steel sections, like hollow sections, can help reduce the overall weight of the structure.
• Corrosion resistance: depending on the environment and exposure conditions, corrosion resistance may be a concern. Some steel sections are more prone to corrosion than others, and appropriate protective measures, such as galvanisation or painting, may be necessary.
• Cost: the cost of steel sections can vary significantly based on the type, size, and availability. It's important to balance the cost with other factors to ensure an economical and practical solution.

Availability and delivery time: the availability of specific steel sections can influence your choice, especially for projects with tight deadlines or in remote locations. Check with your supplier to ensure timely delivery.

Matching Sections to Design Requirements

To match steel sections effectively to your design requirements, you'll need to evaluate factors such as loading conditions, spans, deflection limits, and other structural performance criteria. Here are some steps to follow:

• Understand the design loads: Determine the design loads, including dead loads (weight of the structure itself), live loads (occupancy and usage loads), wind loads, and any other loads that the structure will be subjected to.
• Calculate required section properties: based on the design loads, spans, and performance criteria (like deflection limits), calculate the necessary section properties, such as moment of inertia, section modulus, and radius of gyration. In structural engineering, the radius of gyration is used to describe the distribution of cross-sectional area in a column around its centroidal axis with the mass of the body. 
• Compare section properties: compare the required section properties with the available steel section properties, which can be found in steel section tables or catalogues provided by manufacturers.
• Optimise section selection: once you've identified a few suitable steel sections, consider factors like cost, weight, and constructability to optimise your selection further.
• Consult with structural engineers: for complex projects or critical structural elements, it's advisable to consult with structural engineers who can provide expert guidance on selecting the most appropriate steel sections.

Follow these steps and carefully consider all relevant factors and you can ensure that the steel sections you choose will meet the design requirements, ensure structural integrity, and contribute to the overall success of your project.

Conclusion

Selecting the right steel sections is crucial for the structural performance, safety, and cost-effectiveness of any construction project. By understanding the common types of steel sections, considering key factors like strength, weight, and corrosion resistance, and matching sections to design requirements, you can make informed decisions that will result in a robust and reliable structure. Consulting with experienced structural engineers can provide valuable insights to navigate the complexities of steel section selection.

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Steel Beam Basics Guide: Uses, Types, & Reading Sizes Explained

| Categorized in: Types

Steel beams can seem simple when you glance at them, but there is a huge mix of types, variations, measurements, and more that are tailored to different applications and purposes. 

We’ve created guides like this for other structural steel shapes as well, such as rebar, piping, angles, plates, and grating. Whether you’re just looking to learn or you’re planning on buying some, we’re here to break it down so you can feel confident talking about and buying the right beams for your needs.

What is a Steel Beam?

A steel beam is a structural shape that’s widely used across many industries and projects. Made from high-strength steel, they are long, horizontal, or sloping structural elements designed to bear loads and provide support for construction projects. Steel beams come in various shapes and sizes to fit specific needs. One example is I-beams, which are called such as their profile is shaped like a capital I (or an H if you turn it on its side). 

Steel beams are very strong and they can distribute loads and resist bending, ensuring stability and durability in structures. But at the same time, that can make them very heavy, which is why they can also be cut in half along their length to create tee beams. These steel beam shapes are referred to as T-beams to match their profile.

Structural Steel Beam Applications

At their most basic, steel beams are for supporting heavy loads due to their immense strength. More specifically, they’re often used in construction and civil engineering structures such as supports for bridges or the primary frames of buildings. Here are a few more examples of the most common uses for steel beams:

• Commercial and residential buildings: Providing support for floors, ceilings, and roofs.
• Bridges and overpasses: Offering structural integrity and load-bearing capabilities.
• Skyscrapers: Acting as primary vertical and horizontal support beams.
• Industrial warehouses and factories: Used in building frames and overhead support systems.
• Parking garages: Withstanding heavy loads from vehicles.
• Retail and hospitality spaces: Supporting large open areas without the need for intermediate columns.
• Stadiums and arenas: Ensuring structural stability for large, open spaces with minimal support.

As we’ll discuss, they have excellent strength and weight-bearing characteristics for things like supporting floors and roofs, which makes them ideal choices for most construction and infrastructure projects.

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Parts of a Steel Beam

While a beam’s strength partially comes from the strength of steel, is also a result of their shape. A steel beam is made up of two basic parts, both of which can vary in dimensions for different applications.

Flanges: When looking at the profile of a steel beam, it looks like an I. The (typically shorter) horizontal pieces on the top and bottom are called the flanges. Their edges can be parallel or tapered depending on the type of beam. The purpose of flanges is to resist the bending moment or forces experienced by the beam.

Web: The web of a beam is the (typically longer) vertical piece that connects the two flanges in the center. The radius of the corner where each flange meets the web can also vary depending on the beam. The purpose of the web is that it resists shear forces that could cause collapses or breaking.

Together, web and flanges work to provide great strength for shearing and bending, which is why beams are so common in bridges and building frames. However, a beam’s shape has relatively low resistance to torsional (or twisting) forces.

Beyond the webs and flanges, there are other key components of steel beams that influence their strength and use:

Types of Steel Beams

Within this category, there are a couple of different steel beam shapes (or letters) you’ll likely run across. Though we won’t cover them all in great detail with this guide, you’ll find the most common types of steel beams are:

1. H Piles
2. I-Beams (or Standard Beams)
3. W-Beams (or Wide-Flange Beams)
4. T-Beams

H-Piles vs. I-Beams

Relatively similar in height-to-width ratio, I-beams and H piles are both shaped like their letter designation. The primary differentiator between these two product types is that while H piles flanges are parallel and flat, I-beam flanges are tapered and get thinner further from the web.

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W-Beams vs. I-Beams

Now when we compare I-beams to another beam variation, W-beams (also known as wide flange beams), we see a more obvious shift simply from the name. As you might have guessed, W-beams have flanges that are wider than your standard I-beam, and this is the main difference between the two. Because of this, steel W-beams can often hold more weight and resist higher forces than I or H piles.

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Understanding Steel Beam Sizing

When reading beam sizes, they often are written like “W 27 x 178#” or “S 24 x 121#”. This might seem confusing if you’ve never tried to purchase or work with steel beams before, but it’s very straightforward once you understand the format:

1. The first letter indicates the general shape or type of beam, in this case, W means it’s a W-(or wide flange) beam whereas S is for an S-(or Standard American) beam. 
2. The number that follows the letter is called the section number and is the “height” of the I. 
3. The second number is the pounds per lineal foot, or how much each foot of the beam weighs. 
4. Sometimes, there will be a third number that represents the length of the beam (in feet).

W 27 x 178#

Using these examples, the wide flange beam is 27 inches tall and weighs 178 pounds per foot. If that beam is 40 feet long, we can multiply the weight per foot by the length to estimate that the total weight would be 7,120 pounds. 

S 24 x 121#

Following the example above, the S-beam is 24 inches tall and weighs 121 pounds per foot, leading to a 4,840 total weight if the beam is 40 feet long.

While these are the major pieces of information for reading a steel beam size, the flanges and web also have individual dimensions and characteristics that are often displayed in full steel beam sizing charts. For more information, visit our I-beam or W-beam pages to view their sizing charts.

Here for All Your Steel Beam Needs

Steel beams are essential for any construction project, providing the strength and stability necessary to support various structures, from bridges to skyscrapers. Understanding the different types of steel beams, their parts, and how to properly size and measure them is crucial for any project’s success.

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