Options for floor insulation

Options for floor insulation

Passive Design

Options for floor insulation

The type of floor insulation used will depend on whether the floor is concrete slab or a suspended timber-frame floor.

On this page:

  • Insulating timber-framed floors
  • Insulating concrete slab floors

Timber-frame floors are typically insulated with polystyrene boards or sheet insulation made from glasswool (fibreglass), wool, polyester, wool/polyester mix, and mineral wool.

Concrete slab floors are typically insulated with polystyrene board.

For information about performance, durability and environmental properties of each material, see our insulation materials factsheet(PDF) and the materials section of this site.

Insulating suspended timber floors

Insulate suspended timber ground floors using:

  • glasswool (fibreglass), wool or polyester sheets fitted between the floor joists and securely fixed or strapped in place. For very exposed subfloors, protect the insulation by fixing a sheet lining material to the underside of the joists. Check that the specific insulation products are recommended for use under floors by the manufacturer
  • polystyrene panels inserted between the floor joists.
Options for floor insulation

Polystyrene boards between joists give a moderate cost insulation option. The polystyrene must be fitted hard against the underside of the floor and should be a tight fit between joists without gaps.

Composite construction will give higher performance values than the individual materials and will generally more than meet minimum Code requirements.

Note: Perforated aluminium foil draped over the floor joists without any additional insulation currently meets the minimum permitted R-value according to the Acceptable Solution H1/AS1 Table 1, Note 4, if the subfloor has a continuous, closed perimeter wall. However, reflective insulation is often poorly installed and tends to lose performance over time. BRANZ therefore recommends that other types of underfloor insulation are installed under suspended timber floors.

Insulating concrete slab-on-ground floors

Insulate under a concrete slab-on-ground by placing 50 mm minimum, S grade expanded polystyrene (EPS) board over the damp-proof membrane before the slab is poured. However, unless a thermal break or perimeter insulation is used, this will only raise the R-value by around R0.2. Slab perimeter insulation is more essential than the underside of the slab as most of the heat loss from the slab occurs at the edges between the air and the ground.

A foundation thermal break (for example, using a strip of H3.2 treated timber between the slab and the foundation) should also be provided. This greatly increases the R-value. (While foam insulation provides better thermal insulation than timber does, the foam would be vulnerable to point loads such as from furniture).

Provide insulation under a concrete slab-on-ground by installing a layer of polystyrene over the damp-proof membrane either as a 1.2 m wide insulation at the perimeter only, or under the whole slab. A thermal break must be included around the slab edge to mitigate the thermal bridging.

Determining under-slab insulation requirements

According to the schedule method of calculation R-values in NZS 4128, the floor R-value minimum requirement for all climate zones and wall types is R1.3. For passive design, achieving a higher R-value is recommended — using R1.9 (this is the minimum R-value required for a heated floor) as the minimum is recommended.

The under-slab R-value calculation is complex due to the R-value’s dependence on the thermal conductivity of the soil under different parts of the slab i.e. thermal resistance is greatest at the centre of the slab and least at the perimeter due to the different lengths of the heat flow paths to the exterior of the slab. The calculation depends on the:

  • area/perimeter ratio of the floor
  • thermal conductivity of the soil under the slab
  • thickness of the external walls.

For example, minimum under-slab insulation requirements may be met by the following:

  • If the slab area/perimeter ratio is greater than 1.9, 1.2 m x 50 mm perimeter expanded polystyrene (EPS) insulation and no thermal break with a 90 mm thick wall will give an R-value of R1.3 (a 140 mm thick wall will give a higher R-value of R1.4).
  • If the slab area/perimeter ratio is 1.3 and has a thermal break, a 90 mm thick wall will give an R-value of R1.3.
  • Where full under-slab insulation is installed using 50 mm or 100 mm thick EPS with a thermal break incorporated, the R-value will be well above the minimum requirement.

Embedded floor heating

If embedded floor heating is incorporated in a concrete slab-on-ground, the slab must be insulated so that heat from the slab is delivered up into the space above and not lost to the exterior and ground below. NZS 4218 Table 3 sets out minimum R-values for concrete floor slabs with embedded floor heating.

Leave a Reply