HABITO DRYWALL TECHNICAL INFORMATION · Saint‑Gobain Construction Products SA (Pty) Ltd. Samrand...
Transcript of HABITO DRYWALL TECHNICAL INFORMATION · Saint‑Gobain Construction Products SA (Pty) Ltd. Samrand...
0860 27 28 29 | www.habito.co.za Saint‑Gobain Construction Products SA (Pty) Ltd. Samrand Offices, 1 Shale Rd, N1 Business Park
HABITODRYWALLTECHNICAL INFORMATIONWITH THE STRENGTH OF BRICK* ANDTHE BENEFITS OF DRYWALL *Strong enough to handle 15kg per screw and 5 x more core strength than standard plasterboard
HABITO DRYWALLS ARE REASSURINGLY SOLID AND DEPENDABLY STRONG, PLUS THEY PROVIDE FOR BETTER FIXABILITY THAN STANDARD INTERNAL DRYWALLS
WILL YOU NEED SPECIAL FIXINGS TO INSTALL FIXTURES ON YOUR HABITO DRYWALLS?The strong surface of our Habito drywalls enables you to fix shelves, curtain poles and TVs, without the need for noggings, battons, drills or specialist fixings. You can simply screw directly into the wall surface, making DIY easy and giving you more freedom to have your home just the way you want it. Gyproc High Performance Wall Systems are engineered to support the way you live. The secret of their effectiveness lies in an innovative building board, Gyproc Habito, which provides considerably more performance than standard plasterboard.
CAN YOU TELL ME MORE ABOUT THE FIXING CAPABILITY OF GYPROC HABITO?Gyproc Habito uses patent(s) pending technology to provide inbuilt fixing performance in a drywall system. By using the correct screw you will provide a safe working load (SWL) of up to 15kg per fixing. We recommend that you follow the manufacturer’s guidance as to the number of fasteners required to mount a fixture. For example: If a TV weighs 15kg with its bracket and the bracket accepts four fixings, you should use four screws, even though this provides 60kg safe working load.
CAN I RE-FIX ITEMS BACK INTO THE SAME LOCATION? Yes, you can re‑fix an item back into the same position on a Habito Wall and the load strength will be largely unaffected.
HOW MUCH LOAD CAN BE SUPPORTED BY A GYPROC HIGH PERFORMANCE WALL SYSTEM?
EUROPEAN CLASSIFICATION
METRIC EQUIVALENT
SAFE LOADING
NO. 6 3.5 MM 12.4 KG
NO. 8 4.0 MM 12.9 KG
NO. 10 5.0 MM 15.0 KG
NO. 12 6.0 MM 15.0 KG
WHEN WILL GYPROC HABITO BE AVAILABLE IN SOUTH AFRICA?Habito Walls will be available for purchase from Specialist Distributors in May 2016.
One layer of Gyproc Habito on 63.5mm Habito UltraSTEEL Studs at 600mm centres.
One layer of Gyproc Habito on 63.5mm Habito UltraSTEEL Studs at 600mm centres. 63.5mm Isover Cavitybatt installed in the cavity of the drywall.
One layer of Gyproc Habito on 102mm Habito UltraSTEEL Studs at 600mm centres.
One layer of Gyproc Habito on 102mm Habito UltraSTEEL Studs at 600mm centres. 102mm Isover Cavitybatt installed in the cavity of the drywall.
A1
A3
A2
A4
Inner layer of Gyproc Habito and Outer layer of Gyproc Plasterboard on 51mm Donn UltraSTEEL Studs at 600mm centres.
Inner layer of Gyproc Habito and outer layer of Gyproc Plasterboard on 51mm Donn UltraSTEEL Studs at 600mm centres. 51mm Isover Cavitybatt installed in the cavity of the drywall.
Inner layer of Gyproc Habito and outer layer of Gyproc Plasterboard on 63.5mm Donn UltraSTEEL Studs at 600mm centres.
Inner layer of Gyproc Habito and outer layer of Gyproc Plasterboard on 63.5mm Donn UltraSTEEL Studs at 600mm centres. 63.5mm Isover Cavitybatt installed in the cavity of the drywall.
B3 B4
B1 B2
Inner layer of Gyproc Habito and outer layer of Gyproc Plasterboard on 102mm Donn UltraSTEEL Studs at 600mm centres.
Inner layer of Gyproc Habito and outer layer of Gyproc Plasterboard on 102mm Donn UltraSTEEL Studs at 600mm centres. 102mm Isover Cavitybatt installed in the cavity of the drywall.
Inner layer of Gyproc Habito and outer layer of Gyproc Plasterboard on two frames of 63.5mm Donn UltraSTEEL Studs at 600mm centres. 63.5mm Isover Cavitybatt installed in the cavity of the drywall.
2 x Inner layer of Gyproc RhinoBoard and outer layer of Gyproc Habito on two frames of 63.5mm Gyproc Habito Studs at 600mm centres. 2 x 63.5mm Isover Cavitybatt installed in the cavity of the drywall.
C3 C4
C2C1
1 Based on a limiting deflection of L/240 at 200 Pa. Greater heights can be achieved through reduced stud centres. For additional guidance contact Saint‑Gobain Gyproc. Reducing the stud centres has a negative effect on the sound insulation performance of a drywall system.
» When there is no insulation in the cavity and the studs spacing is reduced to 300mm centres, this results in an estimated 3dB loss in the Rw compared to studs at 600mm centres without insulation.
» When there is insulation in the cavity and the studs spacing is reduced to 300mm centres, this results in an estimated 2dB loss in the Rw compared to studs at 600mm centres with insulation in the cavity.
» When there is no insulation in the cavity and the studs spacing is reduced to 400mm centres, this results in an estimated 2dB loss in the Rw compared to studs at 600mm centres without insulation.
» When there is insulation in the cavity and the studs spacing is reduced to 400mm centres, this results in an estimated 0dB loss in the Rw compared to studs at 600mm centres with insulation in the cavity.
2 Sound insulation performances for partitions finished using jointing or plaster skim.3 To represent worst case scenario, calculations are based on approximate weight of a skimmed system and the
figure are rounded up to the nearest whole number.4 Width is calculated based on 10mm gap between frameworks. A wide wall thickness can be achieved by
increasing the gap between the studs. The fire performance of the system will remain constant. The acoustic performance of the system will be enhanced, however for the purpose of design the acoustic performance should be as stated in the table above.
NOTE Duty Rating for all systems = Severe.
NOTE Fire Rating specifications according to SANS 10177-2.
NOTE The fire resistance and sound insulation performances are for imperforate partitions, walls and ceilings incorporating boards with all joints taped and filled, or skimmed according to Saint‑Gobain Gyproc’s recommendations. The quoted performances are achieved only if Saint‑Gobain Gyproc and Saint‑Gobain Isover components are used throughout, and the Company’s fixing recommendations are strictly observed. Any variation in the specifications should be checked with Saint‑Gobain Gyproc.
NOTE For heights over 4200mm Donn Deep Track should be used at base and at head of the drywall system. (Subject to deflection criteria).
GYPROC HIGH PERFORMANCE WALL SYSTEM WITH HABITO
DRAW
ING
DRYW
ALL T
HICK
NES
S (M
M)
BOAR
D TY
PE
BOAR
D TH
ICKN
ESS
(MM
)
MAX
IMUM
HEI
GHT
(MM
) 1
SOUN
D IN
SULA
TIO
N RW
(C
; CTR
) 2
APPR
OXIM
ATE W
EIGH
T (K
G/M
2 ) 3
SYST
EMS R
EFER
ENCE
N
UMBE
R
30 MIN FIRE RESISTANCE
A1 89 Gyproc Habito 1 X 12.5 5450 41 (-3;-6) 29 GH201601
A2 89 Gyproc Habito 1 X 12.5 5450 45 (-2;-7) 30 GH201602
A3 127 Gyproc Habito 1 X 12.5 7450 42 (-2;-5) 30 GH201603
A4 127 Gyproc Habito 1 X 12.5 7450 46 (-2;-6) 31 GH201604
60 MIN FIRE RESISTANCE
B1 101 Inner layer Gyproc Habito + outer layer Gyproc RhinoBoard
1 x 12.5mm + 1 x 12.5mm 4050 46
(-2,-5) 46 GH201605
B2 101 Inner layer Gyproc Habito + outer layer Gyproc RhinoBoard
1 x 12.5mm + 1 x 12.5mm 4050 52
(-3,-9) 47 GH201606
B3 114 Inner layer Gyproc Habito + outer layer Gyproc RhinoBoard
1 x 12.5mm + 1 x 12.5mm 4900 46
(-2;-5) 46 GH201607
B4 114 Inner layer Gyproc Habito + outer layer Gyproc RhinoBoard
1 x 12.5mm + 1 x 12.5mm 4900 53
(-3-9) 47 GH201608
90 MIN FIRE RESISTANCE
B1 101 Inner layer Gyproc Habito + outer layer Gyproc FireStop
1 x 12.5mm + 1 x 12.5mm 4300 47
(-2;-6) 50 GH201609
B2 101 Inner layer Gyproc Habito + outer layer Gyproc FireStop
1 x 12.5mm + 1 x 12.5mm 4300 53
(-3;-9) 51 GH201610
B3 114 Inner layer Gyproc Habito + outer layer Gyproc FireStop
1 x 12.5mm + 1 x 12.5mm 5200 47
(-2;-5) 50 GH201611
B4 114 Inner layer Gyproc Habito + outer layer Gyproc FireStop
1 x 12.5mm + 1 x 12.5mm 5200 54
(-4;-10) 52 GH201612
120 MIN FIRE RESISTANCE
B2 101 Inner layer Gyproc Habito + outer layer Gyproc FireStop
1 x 12.5mm + 1 x 15mm 4550 54
(-4;-10) 59 GH201613
B4 114 Inner layer Gyproc Habito + outer layer Gyproc FireStop
1 x 12.5mm + 1 x 15mm 5450 55
(-3;-8) 57 GH201614
60 MIN FIRE RESISTANCE
C1 152 Inner layer Gyproc Habito + outer layer Gyproc RhinoBoard
1 x 12.5mm + 1 x 12.5mm 6950 47
(-2;-6) 47 GH201615
C2 152 Inner layer Gyproc Habito + outer layer Gyproc RhinoBoard
1 x 12.5mm + 1 x 12.5mm 6950 53
(-2;-8) 49 GH201616
C3 4 187 Inner layer Gyproc Habito + outer layer Gyproc RhinoBoard
1 x 12.5mm + 1 x 12.5mm 9250 61
(-3;-10) 48 GH201617
C4 177 2X Inner layer Gyproc RhinoBoard + outer layer Gyproc Habito
2 x 12.5mm + 1 x 12.5mm 9000 65
(-6;-14) 50 GH201618
90 MIN FIRE RESISTANCE
C1 152 Inner layer Gyproc Habito + outer layer Gyproc FireStop
1 x 12.5mm + 1 x 12.5mm 7200 48
(-2;-8) 51 GH201619
C2 152 Inner layer Gyproc Habito + outer layer Gyproc FireStop
1 x 12.5mm + 1 x 12.5mm 7200 54
(-2;-8) 53 GH201620
C3 4 187 Inner layer Gyproc Habito + outer layer Gyproc FireStop
1 x 12.5mm + 1 x 12.5mm 9250 61
(-2;-8) 52 GH201621
C4 177 2X Inner layer Gyproc FireStop + outer layer Gyproc Habito
2 x 12.5mm + 1 x 12.5mm 9000 65
(-6;-14) 54 GH201622
120 MIN FIRE RESISTANCE
C2 157 Inner layer Gyproc Habito + outer layer Gyproc FireStop
1 x 12.5mm + 1 x 15mm 7400 55
(-1;-5) 58 GH201623
C3 4192 Inner layer Gyproc Habito + outer layer Gyproc FireStop
1 x 12.5mm + 1 x 15mm 9400 62
(-2-7) 58 GH201624
C4 182 2X Inner layer Gyproc FireStop + outer layer Gyproc Habito
2 x 15mm + 1 x 12.5mm 9200 65
(-5;-12) 59 GH201625