Pultrusion & Continuous Composite Profiles worked example

Profile Weight Per Foot with profile cross-sectional area of 50 in²: a worked example

Suppose profile cross-sectional area falls to 50 in². This page works the full calculation at that level so you can see exactly which result moves and by how much. Profile weight per foot is the linear mass of a pultruded FRP profile — the pounds of fiberglass, carbon, or vinyl-ester composite in every running foot of a rod, channel, angle, or custom die shape.

The inputs for this scenario

  • Profile cross-sectional area: 50 in² (the input this scenario stresses; the baseline uses 100)
  • Composite laminate density: 4 lb/in³ (held at the documented default)
  • Inches-to-feet length factor: 0.01 x (held at the documented default)
  • Void/resin-richness correction: 1 x (held at the documented default)

Working through the calculation

  • The calculation starts from the formula this tool documents: Profile Weight Per Foot = first factor × second factor × conversion factor × process multiplier.
  • Result works out to 1 lb at these inputs, and this is the headline figure for the scenario.
  • Base product works out to 1 value at these inputs.
  • Multiplier works out to 1 x at these inputs.
  • Factor A x B works out to 200 value at these inputs.

How this compares with the baseline

  • Against the tool's baseline example, where profile cross-sectional area sits at 100 in² and the headline result is 2 lb, this scenario comes in 50% below the baseline at 1 lb.
  • It computes the weight of one running foot of a pultruded profile from its cross-sectional area, the cured composite density, and a length/units correction factor. When the numbers land here, the stressed input is the lever to work; the walkthrough above shows exactly how much each output recovers as it climbs back toward the baseline.

Results at a glance

  • Result: 1 lb (headline result)
  • Base product: 1 value
  • Multiplier: 1 x
  • Factor A x B: 200 value

Run it with your numbers

  • To rerun this with your own numbers, open the live Profile Weight Per Foot calculator, set profile cross-sectional area to your actual value, and adjust the remaining inputs to match your operation.

Last reviewed 2026-05-12.