Tool for quick thermal analysis of assemblies
Wall U-value calculator
Wall calculator landing page for external wall build-ups, materials, and U-value guidance.
Quick answer
Wall U-value calculator
Wall calculator landing page for external wall build-ups, materials, and U-value guidance.
- Formula
U = 1 / (Rsi + sum(thickness_m / lambda) + Rse)- Example
- A 100 mm layer at lambda 0.035 W/mK gives R = 2.86 m²K/W, so the full U-value also depends on surface resistances and the other layers.
Working calculator
Enter the core dimensions and check the result directly on this page.
Worked examples
Example 1
Inputs
U_target = 0.20 W/m²Klambda = 0.035 W/mK
Formula
d = lambda * (1 / U_target)
Steps
1 / 0.20 = 5.00 m²K/W0.035 * 5.00 = 0.175 m
Result
thickness = 175 mm
Related calculator
Insulation thicknessExample 2
Inputs
d = 100 mm = 0.100 mlambda = 0.035 W/mK
Formula
U = 1 / (Rsi + R_layer + Rse)
Steps
R_layer = 0.100 / 0.035 = 2.86U ≈ 1 / (0.13 + 2.86 + 0.04)
Result
U ≈ 0.33 W/m²K
Related calculator
Wall U-valueCommon wall build-ups and practical decision points for external walls.
Practical note
How to interpret the calculator result
Wall U-value calculator is intended for quick option checks and technical discussion before detailed execution. The result depends on the selected units, declared material values, and chosen surface resistances, so each change in layer or thickness should be treated as a separate variant.
The calculator does not automatically verify every local rule, thermal bridge, moisture condition, structural connection, or installation tolerance. If the result is close to a requirement, treat it as a reason for deeper verification rather than a final decision.
For better comparisons, test several realistic thicknesses, check current product data sheets, and review the complete assembly. A calculated value is most useful when the assumptions are clear: material, thickness, layer order, units, and data source.
For insulation or U-value tools, layer order and correct units are especially important. For concrete, electrical, plumbing, or heating tools, the result should be read as a quick quantity or plausibility check before standards and execution conditions are reviewed.
Save the result with the date, material name, and assumptions. If the product, diameter, cable section, or thickness changes later, do not compare the numbers alone without checking which inputs changed.
For calculator pages, clear separation between inputs and result is essential. If a value looks surprising, check units and default fields first, then review the project assumptions.
Wall U-value calculator
Wall U-value calculator
Wall calculator landing page for external wall build-ups, materials, and U-value guidance.
Assembly thickness
Assembly thickness
Wall calculator landing page for external wall build-ups, materials, and U-value guidance.
U-value
U-value
Wall calculator landing page for external wall build-ups, materials, and U-value guidance.
CategoryLambdaLayerMaterialThickness
How it works
Is the calculator suitable for quick design checks?
Focused thermal conductivity and U-value tools, guides, and comparison pages.
Can I switch thickness units?
Focused thermal conductivity and U-value tools, guides, and comparison pages.
Wall U-value calculator
Wall calculator landing page for external wall build-ups, materials, and U-value guidance.
Wall calculator landing page for external wall build-ups, materials, and U-value guidance.
Add layerRestore default setupRemove
Assembly nameThickness unitInternal Rsi (m2K/W)External Rse (m2K/W)
Calculation assumptions
The calculators use visible formulas and explicit unit conversions. Treat the result as a preliminary check, not a complete building design.
- SI and US units are converted separately; R, RSI, U-value, and U-factor are not mixed without the unit factor.
- Enter positive values and compare the result with the selected product datasheet.
- Local codes, thermal bridges, fasteners, and installation quality can change the requirement.
- Last formula review: 2026-04-27.
See how formulas, unit conversions, rounding, and limitations are handled. Methodology details.
Using US units?
Open the R-value, U-factor, and insulation thickness in inches tools.
Materials and comparisons
Check lambda values, insulation comparisons, and reference pages before choosing layers.
Frequently Asked Questions
Lambda is the thermal conductivity of a material, usually shown in W/mK. Lower lambda means heat moves through that material more slowly, but the final assembly still depends on thickness, surface resistances, and every other layer.
U-value describes heat loss through the whole building element, not just one material. A low U-value usually means a better insulated wall, roof, or floor, provided the real build-up matches the layers entered in the calculator.
Yes. Use the comparison section to keep thickness constant, then compare materials by lambda and calculated thermal resistance. This is useful when two products look similar on paper but behave differently at the same installed depth.
Yes. You can print the result or export it to CSV, Excel, or PDF for reports and documentation.
Yes. It is designed for layered assemblies such as external walls, flat roofs, pitched roofs, floors, and slabs. For unusual assemblies, add every relevant layer and treat the result as a planning check before formal verification.
Yes. It is intended for fast concept-stage calculations, insulation comparison, and envelope optimisation before detailed design. It is best used to narrow choices, not to replace a code check or project-specific thermal bridge assessment.
Yes. You can switch between millimeters, centimeters, and inches, and the calculator keeps the values consistent. For fewer mistakes, choose one unit system at the start of a project and review converted thicknesses before export.
Use Wall U-value calculator as a first-pass reference. Before specifying anything, compare the result with the site check, actual project dimensions, product data sheet, and local requirements.