Cool Interior Climate Tables

Recommended Levels of Insulation To Achieve Deemed-To-Satisfy Rule for Energy Efficiency in an Unventilated Roof And Ceiling Construction

Climate Zones 1
Minimum required Total R-value (m².K/W) (for roof solar absorptance of more than 0.55) 3.7
Direction of heat flow Up
Estimated Total R-Value (m².K/W) of roof and ceiling materials(Roof covering & plasterboard only) 0.35 – 0.40
Estimated Minimum added R-Value of Insulation (m².K/W) 2.30 – 3.35
Generic Insulation Products Density Kg/m³ Thermal Conductivity
W/(m.k.)
Recommended deemed-to-satisfy min thickness (mm) of insulation product
Cellulose Fibre Loose-Fill 27.5 0.040 135
Flexible Fibre Glass Blanket 10 – 18 0.040 135
Flexible BOQ Polyester Fibre Blanket 24 0.038 130
Flexible Polyester Blanket 11.5 0.046 160
Flexible Mineral/Rockwool 60-120 0.033 115
Flexible Ceramic Fibre 84 0.033 115
Rigid Expanded Polystyrene (EPS)SD 15 *0.035 120
Rigid Extruded Polystyrene (XPS) 32 *0.028 100
Rigid Fibre Glass Board 47.5 0.033 115
Rigid BOQ Polyester Fibre Board 61 0.034 115
Rigid Polyurethane Board 32 *0.025 85

(*)Thermal efficiencies are dependant on materials thickness, density, age, operating temperature and moisture.

R-Values Considered to be achieved by Reflective Foil Laminates   (refer BCA 2007)

Emittance of added reflective insulation Direction of heat flow R-Value added by reflective foil insulation
Emittance of added reflective insulation Direction of heat flow Pitched roof (=10°) with horizontal ceiling Flat skillion or pitched roof (=10°) with horizontal ceiling Pitched roof with cathedral ceilings
Naturalventilated roof space Non-ventilated roof space 22° pitch 30° pitch 45° pitch
0.2 outer 0.05 inner Downwards 1.21 1.12 1.28 0.96 0.86 0.66
0.2 outer 0.05 inner Upwards 0.59 0.75 0.68 0.72 0.74 0.77
0.9 outer 0.05 inner Downwards 1.01 0.92 1.06 0.74 0.64 0.44
0.9 outer 0.05 inner Upwards 0.4 0.55 0.49 0.51 0.52 0.53
Note: (a) Reflective foil insulation values inclusive of 15mm air gap. Reflective insulation should work in conjunction with and air gap to be effective. (b) The R-Value of reflective insulation is affected by the airspace between a reflective side of the reflective insulation and the building lining or cladding. Dust build-up reduces R-Values.