Cold Forming HSS Square Tube Calculator
Here’s a comprehensive table detailing the key considerations and specifications for cold-formed HSS (Hollow Structural Section) square tubes. This table includes information on dimensions, material properties, typical applications, and other essential factors.
Cold Forming HSS Square Tube Specifications Table
Factor | Description/Options | Typical Values/Estimations |
---|---|---|
Standard Sizes | Common outer dimensions (in inches) | 2×2, 2.5×2.5, 3×3, 4×4, 6×6 |
Wall Thickness | Standard thicknesses | 1/8″, 3/16″, 1/4″, 3/8″ |
Material | Common materials used | – Mild Steel – Stainless Steel – Aluminum |
Density | Material density | – Mild Steel: ~7850 kg/m³ – Stainless Steel: ~8000 kg/m³ |
Yield Strength | Common yield strengths | – Mild Steel: 250 MPa – High Strength Steel: 350 MPa |
Tensile Strength | Common tensile strengths | – Mild Steel: 400-550 MPa – High Strength Steel: 600-800 MPa |
Moment of Inertia (I) | Formula: I = (b*h³)/12 for square tubes | Varies based on size; calculate based on dimensions |
Section Modulus (Z) | Formula: Z = I/c for square tubes | Varies based on size; calculate based on dimensions |
Applications | Typical uses | – Structural framing – Architectural components – Machinery support |
Cold Forming Process | Method of manufacturing | Tubes are formed at room temperature and can be welded or seamless |
Welding | Common welding methods used | – MIG Welding – TIG Welding – Submerged Arc Welding |
Finish Options | Surface treatments and coatings | – Galvanized – Painted – Mill finish |
Weight Calculation | Formula: Weight = Volume × Density | Weight = (Outer Area – Inner Area) × Length × Density |
Standards | Relevant standards for HSS | ASTM A500, ASTM A1085, EN 10219 |
Cutting and Fabrication | Common methods | – Saw cutting – Laser cutting – Water jet cutting |
Key Takeaways
- Sizing: The size and wall thickness of the square tube should be chosen based on the structural requirements and load-bearing capacity needed for the specific application.
- Material Selection: The choice of material affects the strength, weight, and cost of the tube. Mild steel is often used for general construction, while stainless steel is selected for corrosion resistance.
- Fabrication: Cold forming allows for precise dimensions and surface finishes, making HSS square tubes suitable for a wide range of structural applications.
- Calculations: Understanding how to calculate the moment of inertia and section modulus is crucial for engineers when designing structures to ensure they can support the expected loads.
This table serves as a comprehensive guide for understanding the specifications and considerations for cold-formed HSS square tubes, making it useful for engineers, architects, and fabricators in the industry.