Thermal Expansion Calculatorとは?
Calculate linear, area, and volume thermal expansion with this free thermal expansion calculator. Find ΔL = αL₀ΔT, ΔA = 2αA₀ΔT, and ΔV = 3αV₀ΔT from coefficient of thermal expansion and temperature change. Bimaterial gap mode finds differential expansion between two materials in a sleeve or composite. Results in m, mm, ft, strain, and percent change. Steel, aluminum, concrete, and copper presets. Metric and imperial units. Runs instantly in your browser.
Thermal Expansion Calculatorの使い方
- Choose Linear, Area, Volume, or Bimaterial Gap expansion mode.
- Select metric or imperial units.
- Enter original length, area, or volume and temperature change (positive for heating, negative for cooling).
- Enter α in ×10⁻⁶/°C or ×10⁻⁶/°F, or use a material preset.
- Review expansion, final dimension, thermal strain, and copy calculation steps.
よくある使用例
- Estimating bridge or rail expansion gap for temperature swings
- Sizing clearance for a steel shaft in an aluminum housing
- Calculating concrete slab area growth from summer heat
- Finding thermal strain for structural design checks
- Materials science homework on CTE and expansion
よくある質問
- What is the formula for linear thermal expansion?
- ΔL = αL₀ΔT, where α is the coefficient of linear thermal expansion, L₀ is original length, and ΔT is temperature change. Final length L = L₀(1 + αΔT).
- What units is α usually given in?
- Engineering tables often list α in ×10⁻⁶ per °C or per °F. Steel is about 12 ×10⁻⁶/°C (6.5 ×10⁻⁶/°F); aluminum about 23 ×10⁻⁶/°C.
- How are area and volume expansion related to α?
- For isotropic materials, area expansion coefficient β ≈ 2α and volume coefficient γ ≈ 3α. So ΔA = 2αA₀ΔT and ΔV = 3αV₀ΔT.
- What is bimaterial differential expansion?
- Two materials with different α bonded or fitted together expand by different amounts: ΔL₁ − ΔL₂ = L₀ΔT(α₁ − α₂). This drives thermal stress or required clearance in shafts, rails, and bridges.
- How is this different from the strain calculator thermal mode?
- The strain calculator gives engineering strain ε = αΔT. This thermal expansion calculator computes actual dimensional changes (mm, m, ft), final sizes, area/volume expansion, and bimaterial gaps.