6 Things to keep in mind when buying steel online

Steel differs in mechanical properties (hardness, malleability) and chemical composition (the amount of carbon and various other alloys). Broadly, they fall into four categories - carbon steel, tool steel, alloy steel, and stainless steel.

Carbon steel – with up to 2% carbon, it accounts for 90% of overall steel output. Low to high varieties of this steel find application in machining, welding, petrochemicals, shipbuilding, and construction.

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Tool steel – is a carbon-and-steel alloy that is not just tough but also highly corrosion-resistant due to the high ratio of vanadium and niobium. Besides, the presence of cobalt and nickel help tool steels retain their shape and perform optimally even at high temperatures.

Alloy steel – has one or more alloying elements (aluminum, chromium, copper, lead, manganese, molybdenum, nickel, or silicon) added to enhance corrosion resistance.

Stainless steel – is an alloy steel usually containing 10.5%-30% chromium. With remarkably high corrosion and heat resistance, there is demand for stainless steel from industries as diverse as construction, the power sector, oil and gas, as well as cutlery and kitchenware.

There are over 3,000 different grades of steel for various applications, according to the World Steel Association whose members are responsible for nearly 85% of global steel output.

In a way, MSME buyers of steel are spoilt for choice. It might be difficult to make a buying decision, especially when it comes to online steel shopping. So, here are six things steel buyers, especially MSMEs, need to keep in mind when looking for the best steel online:

1. Different steel grades, different strokes

Different grades and types of steel often serve entirely different purposes. For construction in earthquake zones 3, 4, or 5 settle for nothing less than the best steel materials like 500D TMT bars built using ladle refining furnace (LRF) technology. LRF expels sulphur, phosphorus, and harmful gases, and this means better toughness and added strength.

Structures coming up in coastal areas commonly use austenitic, a highly corrosion-resistant grade of stainless steel. Foundations, columns, and slabs might require different types of steel. When in doubt, refer to the architectural drawing of the structure. If things are still confusing, get the architect to provide details.

2. Uniform size and roundness

Thermo-mechanically treated (TMT) iron rods are the default standards for large load-bearing structures and these guard against flaking and cracking. TMT steels such as Fe550D, Fe600, Fe640, CRS500D, CRS550D, CRS600 are noted for their high strength, ductility, corrosion-resistance, and durability.

TMT bars derive their uniform weight, size and roundness from automated rolling technology in the steel mills. This extreme uniformity of the rods enables their weight to be spread evenly across a structure and prevent deformations, such as warping, bending, and twisting.

3. Ribbing pattern

The ribbing pattern (anchorage) that runs along the periphery of a TMT rod contributes significantly to structural integrity by bonding securely with the concrete, leaving no gaps, thus reducing the chances of cracks. Properties underpinned by such high-strength construction materials require repairs less often and help save maintenance costs.

4. Rigidity and extensibility

A TMT bar, such as Fe500D, has a soft ferrite pearlite core and a harsh martensite exterior. This incredible mix of rigidity and extensibility helps Fe 500D TMT steels adjust to the tensile forces acting on it in the event of, say, an earthquake!

5. Quality certifications

There is no compromise when it comes to qualifying a build environment. Choose high quality construction materials with BIS and ISO certifications as these are guarantors of quality, safety, and reliability. In case of reinforced steel bars (“rebars”) used to strengthen concrete structures, check for international standards such as IS , IS 432 (MS), ASTM A706, BS 449, ASTM A615, and JIS G.

Do you need to order cold-formed steel framing (CFS) for your next project — but aren’t sure where to start? When ordering CFS, you must first be aware of the different types of products and how they’re designated by manufacturers and distributors.

Since a wide variety of CFS member profiles, depths, widths, and material thicknesses exist, the steel framing manufacturing industry developed a standard designator system that all CFS manufacturers and suppliers use. It is important to note that this universal designator system is used in identifying cold-formed steel framing in building codes as well. Understanding the designator system makes it easy to specify the right CFS components — and once you do that, you can then move on to finding the CFS distributor for your project.

The system is alpha-numeric. For example, a CFS member might have the designation 350S162-43. Without knowledge of the designation system, you can’t tell much from that number. Is it a stud? Track? U-channel? What about its thickness and other material dimensions? Once you understand the system, you can identify the member at a glance.

Designator letters convey the type of CFS framing member

There are five CFS profiles. To remember them, think of the acronym STUFL: stud, track, U-channel, furring channel, and L-headers.

Contact us to discuss your requirements of Cold Rolled Steel Supplier. Our experienced sales team can help you identify the options that best suit your needs.

STUFL S

Studs

(or joists, or rafters)

Studs include wall studs, joists, and rafters, all of which have the same shape. All studs have returns or lips. Typical return sizes are ½” and ⅝”. T Track Track is used as the top and bottom plates of a CFS wall, or as the rim track of floors and rafters. U U-channel U-channel is used for bridging, blocking, and custom applications. U-channel members do not have returns or lips. F Furring channel Furring channel is used as purlins, bridging, and backing. Also, furring can be used as framing for suspended ceiling assemblies. L L-header L-headers are used in load-bearing wall framing as headers, eliminating the labor needed to field-assemble those headers.

Images courtesy of Super Stud Building Products, Inc.

Designator numbers convey dimensions and thicknesses

The numbers in a CFS designator indicate the member’s web depth, flange width, and material thickness.

Web depth

The first number in the designator refers to the profile’s web depth. In the case of 350S162-43, the example above, the depth classification is the number 350.

Generally, depth is measured from the outside of the web. The exception is track, or “T” sections, where member depth is the inside-to-inside dimension. However, all CFS web depths are taken in 1/100th of an inch. Let’s say you’re ordering a 3-⅝” stud. That width equals 3.625”, which is approximately 362 x 1/100.” So, the designator would be 362.

In the sample designator 350S162-43, the number 350 means the stud has a web depth of 3-½”.

Flange width

Flange width is the second number in the CFS designator, the first to occur after the profile letter. Like web depths, flange widths are measured in 1/100 inches.

In the 350S162-43 sample, the number 162 designates a flange 162 x 1/100” wide, or 1-⅝”.

Thickness

The number after the dash signifies material thickness. Unlike web depth and flange width, material thickness is measured in “mils.” Mils stands for 1/th of an inch.

So, now you can go back to the original example: 350S162-43. You can immediately tell that it’s a 3-½” stud (350 x 1/100”) with a 1-5/8” flange (162 x 1/100”) with a material thickness of 43 mils. This stud would be similar to a common wood 2”x4”.

If you wanted the same stud in a thinner material, then 362S162-33 might work. If you need a thicker stud, talk to your supplier about 362S162-54.

You’ll see many published figures for thickness. The table below shows the common thicknesses as they relate to minimum thickness, design thickness, the thickness associated with a corner member and respective corresponding gauging:

Designation Thickness (Mils) Minimum Thickness (in) Design Thickness(1) (in) Design Inside Corner Radii(2) (in) Reference Gauge No. 18 0. 0. 0. 25 27 0. 0. 0. 22 30 0. 0. 0. 20-Drywall 33 0. 0. 0. 20-Structural 43 0. 0. 0. 18 54 0. 0. 0. 16 68 0. 0. 0. 14 97 0. 0. 0. 12 118 0. 0. 0. 10

CFS thickness table. (1) Minimum thickness represents 95 percent of the design thickness and is the minimum acceptable for projects based on section A2.4 of the AISI S100-07 with S2-10 Supplement. (2) Thickness based on inside corner radii. Table courtesy of Steel Framing Industry Association.

Finding a CFS distributor

CFS framing is typically supplied by a regional distributor. Distributors include traditional lumberyards and gypsum board supply warehouses. Larger contractors may be able to purchase directly from manufacturers.

To locate distributors, check with a CFS manufacturer. Many link to distributors on their websites. Some manufacturers supply framing packages and uncommon CFS shapes and sizes.

Of course, this is just the beginning when it comes to ordering CFS materials. Some CFS members have different coating options, come in varying stock lengths, and can be ordered in a variety of packaging bundles. The quantities of your order will depend on the specific assembly designs, which will determine their spans and spacing and, therefore, the lengths and quantities you’ll need.

And, don’t forget that if you’re working on a green building project, you’ll want help choosing a nearby supplier, so you can qualify for all allowable green building points.

For more Cold Rolled Steelinformation, please contact us. We will provide professional answers.