This aluminium c channel weight calculator delivers instant aluminium c channel weight estimates, cross-sectional area, volume, and weight per meter so engineers and fabricators can plan procurement and logistics confidently. Explore formulas, examples, and FAQs to master aluminium c channel weight decisions.
Overall vertical depth of the aluminium C section.
Horizontal flange width of each side of the aluminium channel.
Uniform thickness of web and flanges.
Stock length to estimate total aluminium c channel weight.
Aluminium density; adjust for different alloys.
Weight: — kg
Cross-sectional Area: — cm²
Volume: — m³
Weight per Meter: — kg/m
Total Weight: — kg
Formula: Area = h·t + 2·b·t – 2·t²; Weight = Area × Density × Length.
Length (m)
Weight per Meter (kg/m)
Total Weight (kg)
Computed weight distribution for the aluminium c channel weight calculator.
Weight per MeterTotal Weight
Chart shows aluminium c channel weight trends across varying lengths.
What is aluminium c channel weight calculator?
The aluminium c channel weight calculator is a specialized tool that computes aluminium c channel weight by using geometric dimensions, alloy density, and length. Professionals who need precise aluminium c channel weight include structural engineers, fabrication estimators, procurement teams, and logistics planners. A common misconception is that aluminium c channel weight is linear only by length; in reality, flange width, thickness, and density variations also shift aluminium c channel weight.
This aluminium c channel weight calculator embeds rigorous section math so that users can quickly evaluate how design adjustments alter aluminium c channel weight and shipping loads. By repeatedly using the aluminium c channel weight calculator you avoid guesswork and reduce waste.
Leverage {related_keywords} during early design to connect aluminium c channel weight calculator outputs with broader project planning.
aluminium c channel weight calculator Formula and Mathematical Explanation
The aluminium c channel weight calculator uses a derivation rooted in cross-sectional area. First, convert all dimensions from millimeters to meters. The cross-sectional area A for a C channel with uniform thickness t, height h, and flange width b is:
A = h·t + 2·b·t – 2·t². The subtraction removes double-counted corner squares. The volume V for a given length L is V = A × L. The aluminium c channel weight calculator then multiplies volume by density ρ to return W = V × ρ. Weight per meter is simply A × ρ.
Variable
Meaning
Unit
Typical Range
h
Channel height
m
0.03–0.30
b
Flange width
m
0.02–0.15
t
Wall thickness
m
0.002–0.012
L
Length
m
1–12
ρ
Density
kg/m³
2600–2800
W
Total weight
kg
1–150
Variables used inside the aluminium c channel weight calculator.
Use {related_keywords} when aligning aluminium c channel weight calculator results with procurement cost models.
Practical Examples (Real-World Use Cases)
Example 1: Small framing channel
Inputs: h=80 mm, b=40 mm, t=4 mm, L=3 m, ρ=2700 kg/m³. The aluminium c channel weight calculator returns a cross-sectional area of about 7.7 cm², weight per meter of 2.08 kg/m, and total weight near 6.2 kg. Interpretation: a single installer can carry this aluminium c channel weight without equipment.
Example 2: Industrial support channel
Inputs: h=200 mm, b=75 mm, t=8 mm, L=6 m, ρ=2700 kg/m³. The aluminium c channel weight calculator produces roughly 32.5 cm² area, weight per meter about 8.78 kg/m, and total aluminium c channel weight around 52.7 kg. Interpretation: plan palletized delivery and two-person handling.
Link aluminium c channel weight calculator outputs to {related_keywords} for cost and logistics summaries.
How to Use This aluminium c channel weight calculator
Enter channel height, flange width, and thickness in millimeters for the aluminium c channel weight calculator.
Set length in meters and density in kg/m³; default aluminium density is prefilled.
Watch the aluminium c channel weight calculator update results in real time with cross-sectional area, volume, weight per meter, and total aluminium c channel weight.
Review the table and chart to see how aluminium c channel weight shifts with length scenarios.
Use Copy Results to send aluminium c channel weight calculator outputs into emails or RFQs.
Reset to revert to sensible defaults when testing multiple aluminium c channel weight options.
Consult {related_keywords} while interpreting aluminium c channel weight calculator data for fabrication sequencing.
Key Factors That Affect aluminium c channel weight calculator Results
Section geometry: taller heights and wider flanges increase area, driving higher aluminium c channel weight.
Thickness selection: small increases in thickness compound area growth, magnifying aluminium c channel weight quickly.
Alloy density: denser alloys lift aluminium c channel weight; enter precise ρ values.
Length multiples: longer stock scales total aluminium c channel weight proportionally, impacting freight class.
Machining allowances: milling or coping reduces final aluminium c channel weight versus nominal inputs.
Surface treatments: anodizing mass is minimal, but inserts and fasteners raise aluminium c channel weight.