Square Tubing Strength Calculator

Professional structural analysis for square hollow sections

Input Parameters

Outside Width (inches)

Outside Height (inches)

Wall Thickness (inches)

Length (inches)

Applied Load (lbs)

Material Type

Support Condition

Loading Type

Analysis Results

Maximum Deflection

0.000 inches

Maximum Bending Stress

0.00 ksi

Safety Factor

0.00

Moment of Inertia

0.000 in⁴

Section Modulus

0.000 in³

Cross-Sectional Area

0.000 in²

Weight per Foot

0.00 lbs/ft

Maximum Safe Load

0 lbs

Calculation Formulas

Moment of Inertia (I) for Hollow Square Section

I = (W⁴ – (W-2t)⁴) / 12

Where W = outside width, t = wall thickness

Section Modulus (S)

S = I / (W/2)

Distance from neutral axis to extreme fiber

Deflection Formulas

Simply Supported Center Load: δ = (P × L³) / (48 × E × I)
Cantilever End Load: δ = (P × L³) / (3 × E × I)
Uniform Load: δ = (5 × w × L⁴) / (384 × E × I)

Where E = Modulus of Elasticity (29,000 ksi for steel, 10,000 ksi for aluminum)

Bending Stress

σ = M / S = (P × L) / (4 × S)

For center point load on simply supported beam

Cross-Sectional Area

A = W² – (W-2t)²

Used for weight and axial load calculations

Material Properties

Steel Properties

A36 Steel: Yield Strength = 36 ksi, Density = 0.284 lb/in³

A572-50: Yield Strength = 50 ksi, Higher strength structural steel

A572-65: Yield Strength = 65 ksi, High-strength low-alloy steel

A514: Yield Strength = 80+ ksi, Quenched and tempered alloy steel

Aluminum Properties

6061-T6: Yield Strength = 40 ksi, Density = 0.098 lb/in³

6063-T6: Yield Strength = 35 ksi, Architectural applications

Modulus: 10,000 ksi (approximately 1/3 of steel)

Safety Considerations

Recommended Safety Factor: 2.0-4.0 for static loads

Dynamic Loads: Use higher safety factors (4.0-6.0)

Critical Applications: Consider fatigue, buckling, and connection strength

Applications & Design Guidelines

Common Applications

Structural Framework: Building frames, supports, brackets

Machinery: Machine frames, equipment supports

Automotive: Roll cages, chassis components

Architectural: Handrails, decorative elements

Design Considerations

Buckling: Check slenderness ratio for compression members

Connections: Weld and bolt capacity often governs design

Deflection Limits: L/240 for floors, L/360 for roofs typically

Vibration: Consider natural frequency for dynamic loads

Important Limitations

This calculator provides preliminary analysis only. For critical structural applications, consult a qualified structural engineer. Local building codes, dynamic effects, fatigue, and connection details must be considered in final design.

Square Tubing Strength Calculator

Input Parameters

Analysis Results

Maximum Deflection

Maximum Bending Stress

Safety Factor

Moment of Inertia

Section Modulus

Cross-Sectional Area

Weight per Foot

Maximum Safe Load

Calculation Formulas

Moment of Inertia (I) for Hollow Square Section

Section Modulus (S)

Deflection Formulas

Bending Stress

Cross-Sectional Area

Material Properties

Steel Properties

Aluminum Properties

Safety Considerations

Applications & Design Guidelines

Common Applications

Design Considerations

Important Limitations

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