JET STREAM® MAX (WALLS, FLOORS AND SKILLION ROOFS) JET STREAM MAX - Multi-use BLOW-IN Insulation | страница 3

www . knaufinsulation . com . au www . knaufinsulation . co . nz
JET STREAM ® MAX ( WALLS , FLOORS AND SKILLION ROOFS )
June 2018
ADDITONAL INFORMATION ( CONT .)
Australia National Construction Code Series ( NCC 2015 ) Building Code of Australia ( BCA )
• CP1 / CP2 / CP4 and P2.3.1 – Fire Resistance
• FP1.4 / P2.2 and FP 1.5 / 2.2.3 - Weatherproofing and Dampness
• FP5.5 / FP5.3 and P2.4.6 – Sound Insulation
• GP2.1 and P2.3.3 – Heating Appliances
• JP1 and P2.6.1 – Energy Efficiency
• Jet Stream ® MAX thermal resistance has been determined by AS / NZS 4859.1 . and will contribute to meeting these requirements .
New Zealand Building Code :
• Clause B2 DURABILITY : Performance B2.3.1 ( a ) not less than 50 years and B2,3,1 ( b ) 15 years . Jet Stream ® MAX will meet these requirements
• Clause E3 INTERNAL MOISTURE : Performance E3.3.1 . Jet Stream ® MAX will contribute to meeting this requirement
• Clause F2 HAZARDOUS BUILDING MATERIALS : Performance F2.3.1 . Jet Stream ® MAX meets this requirement and will not present a health hazard to people
• Clause H1 ENERGY EFFICIENCY : Performance H1.3.1 ( a ) and H1.3.2 E . Jet Stream ® MAX will contribute to meeting these requirements
• Jet Stream ® MAX thermal resistance has been determined by AS / NZS 4859.1 .
• Jet Stream ® MAX is an acceptable solution in terms of the New Zealand Building Code .
SPECIFICATIONS
Nominal Thickness ( mm )
Australian R-Value ( m 2 K / W )*
New Zealand R-Value ( m 2 K / W )**
Coverage per bag ( m 2 )
70 2.0 2.1 8.1
WALLS
75 2.1 2.3 7.6 90 2.7 2.8 6.1 100 3.0 3.1 5.5 140 4.2 4.3 3.9
* Thermal conductivity - 0.033 W / mK | ** Thermal conductivity - 0.032 W / mK
Nominal Thickness ( mm )
Australian R-Value ( m 2 K / W )*
New Zealand R-Value ( m 2 K / W )**
Coverage per bag
( m 2 )
FLOORS AND SKILLION ROOFS ( BIB APPLICATION )
100
2.5
2.6
6.3
140
3.5
3.6
4.2
190
4.8
5.0
3.3
240
6.1
6.3
2.6
* Thermal conductivity - 0.039 W / mK | ** Thermal conductivity - 0.038 W / mK