MS Square Pipe Weight Chart (IS 4923:2017) and Guide
Working with metal construction, or an infrastructure project, knowing the exact MS square pipe weight per meter becomes essential. This calculation is required for estimating the cost or planning the load-bearing capacity. It also plays a key role in ensuring safety on site. Getting the weight right measurement impacts everything from budgeting, procurement, to transportation and installation.
To simplify this process, a detailed MS square pipe weight chart is available, making it easier to determine pipe weight based on size and thickness. Using this chart not only saves time but also ensures efficiency, accuracy, and cost-effectiveness throughout the project.
What is an MS Square Pipe?
MS square pipes are hollow steel structures made from mild steel, featuring equal width on all four sides. This product's balance of shape, combined with the flexibility and strength of mild steel. Professional engineers and constructors choose this as a reliable choice with a wide range of uses, whether it’s for structural frameworks, general fabrication, or support systems, these pipes are certified for their durability and uniformity.
What Makes (IS 4923:2017) Important?
Working with a hollow square structure, especially in construction fabrication, it’s essential to ensure the consistency and quality; here comes the role of IS 4923.2017. This standard lays down specific guidelines for a pipe starting from dimension to thickness as well as manufacturing tolerance in a calculative method. In simple words, IS 4923.2017 helps to ensure that the pipe is meeting all the requirements of the respective project and also maintains a high level of reliability and performance.
Key Highlights of IS 4923:2017
Dimensions:
The standard includes a wide range of square pipe sizes, with different ranges starting from 20mm x 20mm up to 400mm x 400mm, with wall thicknesses varying from 0.5mm to 25mm.
Tolerances:
IS 4923:2017 defines tolerances limit for a number of aspects like thickness, outer dimensions, squareness, and twist. This ensures the pipes meet a consistent and reliable standard every time.
For instance,
- The wall thickness tolerance is ±10%, while
- The outer dimension tolerance is ±1% or a minimum of ±0.50mm.
Material Grades:
Since every project has its own set of requirements, the standard offers a variety of grades like YST 210, YST 240, YST 310, and YST 355, each designed to suit different strength and performance needs.
Manufacturing Methods:
Square hollow sections can be produced through two methods: Seamless and Electric Resistance Welded (ERW) techniques.
The suitability depends on the desired strength, budget, and application.
Applications:
These square pipes are highly versatile under the standard categorization IS 4923:2017. They are commonly used in mechanical engineering, vehicle manufacturing, industrial structures, bridge construction, and other structural frameworks where strength and uniformity matter.
MS Square Tube Weight Chart
This MS tube chart is commonly used to find the weight for commonly used sizes. This chart helps you quickly estimate the weight of a pipe based on its dimensions and wall thickness.
MS Square Pipe Weight Chart:
| Depth (mm) | Width (mm) | Thickness (mm) | Moment of Inertia (CM4) | Elastic Modulas (CM3) | Plastic Modulas (CM3) | Radius of Gyration (mm) | Area (CM2) | Weight (Kg/m) | Mtrs/M.T | ||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| X-X Axis | Y-Y Axis | X-X Axis | Y-Y Axis | X-X Axis | Y-Y Axis | X-X Axis | Y-Y Axis | ||||||
| 49.5 | 49.5 | 2 | 12.54 | 12.54 | 5.07 | 5.07 | 5.94 | 5.94 | 1.93 | 1.93 | 3.35 | 2.63 | 380.17 |
| 49.5 | 49.5 | 2.5 | 13.7 | 13.7 | 5.54 | 5.54 | 6.52 | 6.52 | 1.93 | 1.93 | 3.7 | 2.9 | 344.59 |
| 49.5 | 49.5 | 3 | 15.36 | 15.36 | 6.2 | 6.2 | 7.36 | 7.36 | 1.91 | 1.91 | 4.21 | 3.3 | 302.86 |
| 220 | 220 | 4 | 2639.06 | 2639.06 | 239.91 | 239.91 | 275.46 | 275.46 | 8.79 | 8.79 | 34.19 | 26.83 | 37.27 |
| 220 | 220 | 4.3 | 2821.21 | 2821.21 | 256.47 | 256.47 | 294.93 | 294.93 | 8.78 | 8.78 | 36.62 | 28.75 | 34.78 |
Here's a breakdown of each column:
- Depth (mm): Outer vertical dimension in mm.
- Width (mm): Outer horizontal dimension in mm (same as depth for square).
- Thickness (mm): Wall thickness of steel section.
- Moment of Inertia (CM4): Resistance to bending about X and Y axes.
- Elastic Modulas (CM3): Strength under elastic bending.
- Plastic Modulas (CM3): Strength under full-yielding (plastic) conditions.
- Radius of Gyration (mm): Resistance to buckling (X and Y axes).
- Area (CM2): Cross-sectional area used for weight/stress calculations.
- Weight (Kg/m): Mass per meter, essential for planning and logistics.
- Mtrs/M.T: Meters per metric ton of material.
Why the MS Square Pipe Weight Chart Matters
Knowing the correct MS square pipe weight chart is more than just a technical requirement; it ensures a smooth and cost-effective execution of any project's steel pipe requirement. This chart would be beneficial for residential structures, industrial frameworks, or commercial fabrication accurate weight allows you to estimate:
- Plan Materials Efficiently: Refer to the correct calculation of how much steel is needed for the entire project.
- Control Project Cost: Using the weight chart ensures precise budgeting and minimal wastage.
- Improve Structural Safety: Accurate weight helps engineers balance strength and safety.
- Easy Transportation and Handling: Knowing the load helps avoid overloading in transit.
Final Words:
Understanding the MS square pipe weight chart is essential for proper planning and efficiency. Knowing the correct MS square pipe weight chart not only aids in accurate planning but also helps reduce material waste and cost, which is a key factor in project planning. For square hollow sections, the IS 4923:2017 standard is the most relevant, as it outlines specifications related to dimensions and tolerances for structural applications. All of which play a vital role in ensuring the quality and performance of mild steel pipes used in structural applications. Each IS standard offers unique dimensional tolerance and strength properties. Therefore, getting these details right makes it crucial to select the standard that aligns with your specific use case and rely on certified tools like a square tube weight calculation for precise measurement and planning. Now these make a real difference in terms of sustainability to any project.