SYSTEMS
HardieSmart™ ZeroLot™ Wall System (Class 1 & 10a)
Design Guide
Australia October 2017
Make sure your information is up to date. When specifying or installing James Hardie™ products, ensure that you have the current technical information and guides. If in doubt, or you need more information, visit www.jameshardie.com.au or Ask James Hardie™ on 13 11 03.
FRL 60/60/60 ONE WAY
Rw 47-48
R 2.1
4.0 - 10 kN/m
per wall
per wall
per wall
per wall
Certificate CM20136
CONTENTS
INTRODUCTION 3
MINIMUM REQUIREMENTS 3
APPLICATIONS 3
SYSTEM SPECIFICATION 4-5
System Configurations 4
System Performance (per wall) 4
Main Components 4
HardieZeroLot™ Panel Accessories 5
Fasteners (not supplied by James Hardie) 5
Sealants (not supplied by James Hardie) 5
Other (not supplied by James Hardie) 5
TOOLS 5
SAFE WORK PRACTICES 6
Fibre Cement 6
HardieFire™ Insulation 6
DESIGN CONSIDERATIONS 7-9 General 7
Slab and Footings 7
Termite Management 7
Boundary Setback 7
Fire Resistance 7
Bracing Performance 7
Thermal Performance 7
Weather Resistance 7
Coastal Areas 8
Fastener Type Limitation 8
Component Substitution 8
Framing 8
Services and Fixtures 9
Component Installation 9
CONSTRUCTION SEQUENCE 10-11
HARDIEZEROLOT™ PANEL 12-13 INSTALLATION STEPS
SYSTEM INSTALLATION STEPS 14-17
CONSTRUCTION DETAILS 18-28
Base Details 18
Floor Junctions 19
Roof Details 20-22
Wall Junctions 23-24
Wall Services 25-28
ONLINE TOOLS 29
WARRANTY 29
CODEMARK CERTIFICATION 29
HARDIESMART™ ZEROLOT™ WALL SYSTEM DESIGN GUIDE OCTOBER 2017 | PAGE 3 OF 32
DETACHED HOUSING | GARAGESCLASS
1 & 10a
HARDIESMARTTM ZEROLOTTM WALL SYSTEM DESIGN GUIDE APRIL2017 PAGE 1 OF 28
IntroductionThis guide contains product information, technical specification, construction details and design considerations for the HardieSmart™ ZeroLot™ Wall System.
What is a "Zero Lot" Line Home?When a building has one boundary wall built against the property line the house is said to have a virtually "zero lot" line. This is common in terrace style homes.
HardieSmart™ ZeroLot™ Wall System comprises two HardieSmart™ Boundary Walls built back to back with at least one built modularly. The external wall face is fitted with a specialised pre-sealed cladding known as HardieZeroLot™ Panel designed for areas with restricted access for maintenance.
Advantages• Creates more usable space within the lot.• Maximises indoor space using a compact solution.• Flexible building process: the construction of
independent structures, rather than traditionalsemi-detached buildings.
• Connection to adjoining properties is not requiredas the system is built and placed in modules.
Minimum RequirementsThe HardieSmart™ ZeroLot™ Wall System is designed for dual and single zero lot boundaries. It is suitable for use in Class 1 and 10a timber-framed buildings with a Fire Resistance Level (FRL) requirement of 60/60/60 minutes or less. For higher FRL, please consult James Hardie.
To provide you with the best possible solution, we continually seek to update and enhance our guides. PLEASE ENSURE YOU HAVE OUR LATEST GUIDE BEFORE USE by visiting jameshardie.com.au or calling on 13 11 03.
Design Guide
Dual Zero Lot (Detached Row Housing)
Single Zero Lot (Exterior Wall Against Existing Structure)
LOT A
LOT B
LOT C
Boundary Wall
60/60/60 FRL
Boundary Wall
60/60/60 FRL
INFILL LOT
Boundary Wall
60/60/60 FRL
Existing boundary
wall
Existing boundary
wall
WA
LL L
OT
B
WA
LL L
OT
C
NE
WW
ALL
WA
LL
Dual Exterior Walls
Single Exterior Wall
LOT A
LOT B
LOT C
Boundary Wall
60/60/60 FRL
Boundary Wall
60/60/60 FRL
INFILL LOT
Boundary Wall
60/60/60 FRL
Existing boundary
wall
Existing boundary
wall
WA
LLLO
TB
WA
LLLO
TC
NE
W W
ALL
EX
ISTI
NG
WA
LL
CLASS 1 & 10a DETACHED HOUSING | GARAGES AUSTRALIA | June 2017
ApplicationsTypical applications are depicted below. These are based on National Construction Code (NCC) 2016 Volume 2 and do not cover all applications and limitations, the designer must check all NCC requirements before specifying. If more information is required to assess suitability, please contact James Hardie.
Now with 60mmHardieFire™
Insulation
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90x45/35mm Timber Studs
6mm Villaboard Lining
60mm HardieFire
Insulation
30mm service cavity
30mm service cavity
Servicesrefer to Design Considerions
HardieZeroLotPanel
ZEROLOT
HardieWrapWeather Barrier
Min 25mmseparation
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System Specification
Dual Zero Lot
For fully detached row housing.
Single Zero Lot
For boundary walls built against existing walls
FRL 60/60/60 minutes
Total R-value 2.1 m2. K/W
Bracing 4.0-10.0 kN/m(depends on fixing method, refer to Design Considerations)
1 HardieZeroLot™ Panel
A fibre cement sheet with a ship lap joint along both 3000mm long edges. Pre-sealed with CoreShield™ technology and designed for unexposed maintenance-free applications.
Size (mm) 3000 x 1200 x 8.5Mass (kg/m2) 12Part No. 404880
2 HardieWrap® Weather Barrier
A non-perforated, highly breathable and reflective safe-glare weather barrier designed to be used behind cladding.
Length (mm) 2750 x 30,000Weight per roll (kg) 9Part No. / Coverage (m2)
305564 / 82.5
3 60mm HardieFire™ Insulation
Mineral wool insulation specifically designed for use in fire applications with select HardieSmart™ Systems. Pack Size: 7 batts
Size (mm) | Part No | Coverage (m2)
1160 x 560 | 305903 | 5.11160 x 420 | 305902 | 3.81320 x 420 | 305909 | 4.3
Thickness (mm) 60Material R-value (m2.K/W)
1.7
Density (kg/m3) 80
4 6mm Villaboard™ lining
Fibre cement internal lining sheet with a recessed edge. Suitable for tiled and untiled internal wall applications in dry and wet areas.
Sizes (mm) 900 x (2400, 3000)1200 x (1800, 2400, 2700, 3000, 3600, 4200)1350 x (2400, 3000, 3600, 4200)
Mass (kg/m2) 8.3Part No. See Villaboard™ lining manual
System Configurations
System Performance (per wall)
Main Components
See Design Considerations for framing specification, structural capacity, fire resistance and other limitations.
All dimensions and masses provided are approximate only and subject to manufacturing tolerances. Masses are based on equilibrium moisture content of product.
1
2
3 4
1
2
3
4
90mm Timber Stud Frame
90mm Stud Frame NEW
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ONE WAY
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James Hardie™ 9mm Aluminium Horizontal Step Flashing
A reversible aluminium flashing designed to be used at floor junctions and horizontal joints of HardieZeroLot™ panel.
Length (mm) 3600Pack Size 4 units per packPart No. 305886
James Hardie™ Aluminium 9mm External Corner
A ready to paint aluminium extrusion to be used at external corner junctions to conceal the board edge.
Size (mm) 3000Pack Size 5 units per packPart No. 305521
James Hardie™ 50mm wide Foam Back Sealing Tape
A self-adhesive foam tape to help improve water tightness. It is applied under sheet joins to the HardieWrap™ weather barrier along the stud face.
Length (m) 25Part No. 304560
HardieZeroLot™ Panel Accessories
Fasteners (not supplied by James Hardie)
Fibre Cement Nailfor fixing HardieZeroLot™ Panel and Villaboard™ lining
2.8 x 30mm min. Class 3 corrosion resistant fibre cement nail. 2.5 x 50mm gun nails are also suitable. Check with nail manufacturer for suitability.
Sealants (not supplied by James Hardie)
Fire and Acoustic-Rated Sealant
Use Bostik FireBan One fire rated sealant or equivalent. If using an equivalent sealant it must be tested in accordance with AS 1530.4 and achieve a minimum 60 minute fire rating. Contact the relevant sealant manufacturer for more information.
Other (not supplied by James Hardie)
Fire Resisting Mineral Wool
Used to seal cavities and maintain FRL at junctions of the selected wall system. Please see Construction Details for applications. Refer to manufacturer for guidance on installation.
ToolsReciprocating Saw or Hand Saw for cutting HardieFire™ Insulation
Used for cutting insulation when required. Ensure to cut 5mm wider than required to ensure compression of insulation in the cavity.
Tools For Fibre Cement
A suite of tools are available for cutting and handling James Hardie™ fibre cement. Please refer to James Hardie's Best Practice Guide for more information.
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HardieFire™ Insulation
Electrical cables and services adjacent to HardieFire™ insulationFoil facings are conductive to electricity. Care must be taken when installing HardieFire™ insulation in the proximity of electrical wiring and lighting fixtures. Avoid contact with uninsulated electrical cables and fittings. If required, HardieFire™ foil facing may be removed using a utility knife. Consult a qualified Electrician, or contact James Hardie for further information.
Storage and Handling
Store in an internal dry area, out of direct sunlight and not exposed to chemicals. It must not be installed during an electrical storm and it must be installed in a dry state to a dry surface and protected from weather during transport and storage. HardieFire™ insulation has not been designed to withstand prolonged direct exposure to the exterior elements. Ensure that the insulation is completely dry prior to fitting.
Protective EquipmentKeep exposure to a minimum and minimise quantities kept in work areas. Avoid contact with eyes. When handling and installing HardieFire™ insulation, to prevent irritation ensure you wear:• Safety goggles/glasses conforming to AS/NZS
1336,• Protective clothing such as gloves and long
sleeve shirts and trousers,• P1 or P2 respirators.
Before Installation• You must turn the mains power ‘Off’ before
entering the workspace. If in doubt, you mustconsult a licensed electrician.
• Care and safety measures must be followedwhen working in areas that contain live electricalwiring.
• Defective electrical cables, terminals or any otherelectrical wiring must be repaired by the relevantspecialist prior to installation.
• Ensure workspace has adequate and ampleventilation. If working in confined spaces, it isrecommended to use a HEPA vacuum or othersuitable dust extractors.
• Before entering workspace, complete a riskassessment inspection to identify hazardsincluding but not limited to electrical, site accessand ventilation.
CuttingIt is recommended to cut outdoors. If cutting indoors, please ensure that workspace is properly ventilated or HEPA vacuums/dust extractors are used.1. Position cutting station so wind will blow dust
away from the user or others in working area.2. Use either a hand saw or a reciprocating saw.
DisposalDiscard any waste pieces of HardieFire™ insulation in accordance with your local council guidelines. Dispose of the material in such a manner to prevent exposure and escape.
Further Health and Safety InformationFor more information refer to the HardieFire™ insulation SDS available at jameshardie.com.au.
Safe Work Practices
James Hardie™ products contain sand, a source of respirable crystalline silica which is considered by some international authorities to be a cause of cancer from some occupational sources. Breathing excessive amounts of respirable silica dust can also cause a disabling and potentially fatal lung disease called silicosis, and has been linked with other diseases. During installation or handling, ensure to follow James Hardie's Best Practice Book and SDS for James Hardie™ fibre cement products available at www.jameshardie.com.au.
Fibre Cement
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Design ConsiderationsGeneralAll design and construction must comply with the appropriate requirements of the NCC and other applicable regulations and standards. The specifier or other party responsible for the project must ensure that the details in this specification are appropriate for the intended application and that additional detailing is performed for specific design or any areas that fall outside the scope of this specification.
Slab and FootingsThe slab and footings on which the building is situated must comply with AS 2870 ‘Residential Slabs and Footings – Construction’ and the requirements of the NCC.SLAB SEPARATION: For detached construction, the designer must ensure that there is suitable slab separation between dwellings. This can be achieved by using a flexible bond breaking material (e.g. material for control joints) when setting out the slab. Refer to NCC and local regulations for more information.
Termite ManagementDue to restricted access at zero lot boundary walls, a suitable and certified termite management mechanism in accordance with AS 3660.1 or a reticulation system must be installed at the boundary slab e.g. Termimesh, Cordon and alike. Please consult the relevant manufacturer for more information.
Boundary SetbackThe HardieSmart™ ZeroLot™ Wall System specifies a minimum setback of 12.5mm from the boundary line when capped and installed in accordance with this guide.
When the HardieSmart™ ZeroLot™ Wall System is not capped and is built against an existing structure, a minimum setback of 500mm is recommended. Due to exposure, the HardieSmart™ ZeroLot™ panels will need to be coated and maintained in accordance with this guide (see coating section).
Please note that council, state or other regulations may apply in your development which specify different setbacks, height, width and other design criteria. Additionally, confirmation in writing in the form of a statutory declaration from the registered owner of the adjoining premises may be required to demonstrate compliance. The designer or specifier must ensure that the system is fit for purpose and complies with the relevant requirements and regulations.
Fire ResistanceNCC Vol. 2 Section 3.7.1 requires boundary walls to maintain an FRL of 60/60/60 minutes. HardieSmart™ Systems have been assessed by the CSIRO Division of Building Construction and Engineering and the Building Research Association of New Zealand (BRANZ) in accordance with the principles of AS1530.4 (FCO-3222 and FCO-3036 Rev. D).
Bracing PerformanceFor two sided systems i.e. comprising of both James Hardie™ external cladding and internal lining products of ≥6mm in thickness, the bracing capacity is typically 4 kN/m for plain timber framing and standard fixing methods. The capacity may be increased to a range of 6-10 kN/m for other fixing methods and anchor rods of 12mm diameter. For more information and specification, the designer must refer to James Hardie's Structural Bracing Application Guide(designed in accordance with AS 1684 'Residential Timber Framed Construction'). James Hardie's Structural Bracing Application Guide contains fixing details and the bracing capacity for James Hardie™
sheet bracing and other fibre cement cladding. All design capacities quoted are Ultimate Limit State(ULS) figures and have been certified by consulting engineers, Cardno (NSW) Pty Ltd.
Thermal PerformanceThis guide outlines certified modelled Total R-values for HardieSmart™ Wall Systems. Use this information to assist in satisfying the minimum deemed to satisfy NCC thermal resistance requirements and in verification software tools.
Total R-values are based on using HardieWrap™ weather barrier with an emissivity of 0.16W/m2. The Total R-values for common systems are in accordance with AS4859.1:2002 including Amendment 1:2006 'Materials for Thermal Insulation of Buildings'.
Weather ResistanceThe external cladding of the HardieSmart™ ZeroLot™ wall system has been designed in accordance with Clause P2.2.2 of the NCC. For any variations, it is the responsibility of the designer or specifier to identify moisture related risks associated with any particular building design. Wall construction design must effectively manage moisture, accounting for both the interior and exterior environments of the building, particularly in buildings that have a higher risk of wind-driven rain penetration or that are artificially heated or cooled. All wall openings, penetrations, intersections, connections, window sills, heads and jambs must be flashed prior to cladding installation.
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HARDIESMARTTM ZEROLOT™ WALL SYSTEM DESIGN GUIDE APRIL 2017 PAGE 4 OF 28
HardieFire™ Insulation
Electrical cables and services adjacent to HardieFire™ insulationFoil facings are conductive to electricity. Care must be taken when installing HardieFire™ insulation in the proximity of electrical wiring and lighting fixtures. Avoid contact with uninsulated electrical cables and fittings. If required, HardieFire™ foil facing may be removed using a utility knife. Consult a qualified Electrician, or contact James Hardie for further information.
Storage and Handling
Store in an internal dry area, out of direct sunlight and not exposed to chemicals. It must not be installed during an electrical storm and it must be installed in a dry state to a dry surface and protected from weather during transport and storage. HardieFire™ insulation has not been designed to withstand prolonged direct exposure to the exterior elements. Ensure that the insulation is completely dry prior to fitting.
Protective EquipmentKeep exposure to a minimum and minimise quantities kept in work areas. Avoid contact with eyes. When handling and installing HardieFire™ insulation, to prevent irritation ensure you wear:• Safety goggles/glasses conforming to AS/NZS
1336,• Protective clothing such as gloves and long
sleeve shirts and trousers,• P1 or P2 respirators.
Before Installation• You must turn the mains power ‘Off’ before
entering the workspace. If in doubt, you mustconsult a licensed electrician.
• Care and safety measures must be followedwhen working in areas that contain live electricalwiring.
• Defective electrical cables, terminals or any otherelectrical wiring must be repaired by the relevantspecialist prior to installation.
• Ensure workspace has adequate and ampleventilation. If working in confined spaces, it isrecommended to use a HEPA vacuum or othersuitable dust extractors.
• Before entering workspace, complete a riskassessment inspection to identify hazardsincluding but not limited to electrical, site accessand ventilation.
CuttingIt is recommended to cut outdoors. If cutting indoors, please ensure that workspace is properly ventilated or HEPA vacuums/dust extractors are used.1. Position cutting station so wind will blow dust
away from the user or others in working area.2. Use either a hand saw or a reciprocating saw.
DisposalDiscard any waste pieces of HardieFire™ insulation in accordance with your local council guidelines. Dispose of the material in such a manner to prevent exposure and escape.
Further Health and Safety InformationFor more information refer to the HardieFire™ insulation SDS available at jameshardie.com.au.
Safe Work Practices
James Hardie™ products contain sand, a source of respirable crystalline silica which is considered by some international authorities to be a cause of cancer from some occupational sources. Breathing excessive amounts of respirable silica dust can also cause a disabling and potentially fatal lung disease called silicosis, and has been linked with other diseases. During installation or handling, ensure to follow James Hardie's Best Practice Book and SDS for James Hardie™ fibre cement products available at www.jameshardie.com.au.
Fibre Cement
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Material Seasoned timber only. Timber used for house construction must have the level of durability appropriate for the relevant climate and expected service life. Must use minimum MGP10 or F7 grade timber. Reference AS1684 ‘Residential Timber Framed Construction.’
Stud Size
90 x (45 or 35)mm minimum HardieZeroLot™ panel requires minimum 45mm at vertical sheet joints, therefore, a double stud will be required. If 35mm studs are used, they must be fastened together.
Stud Spacing
600mm maximum Check whether you require closer stud spacings for your site wind pressures and tile weight (only for tiled walls). NOTE: HardieFire™ insulation sizes have been optimised for 45mm studs at 600mm centres and 35mm studs at 450mm centres, cutting may be required otherwise.
Nogging Spacing
1200mm maximum
Structural Capacity
4.3 kN/stud for 90 x 45mm @600mm centres or 35mm @450mm centres. For 35mm @600mm there is a reduced capacity of 3.0 kN/stud.The load bearing capacities of the timber-framed walls must be in accordance with AS1684 ‘Residential Timber-Framed Construction’ and AS1720.1 ‘Timber Structures’.
Stud Height (mm)
Stud Size Max. Height90 x 35mm 3000mm90 x 45mm 3600mm90 x 70mm 3900mm 90 x 90mm 4200mm
Stud Drilling
Where the stud is to be penetrated horizontally to allow services such as plumbing or electrical conduits to pass between stud bays, only 1 in every 5 studs may be drilled a maximum of 20mm in diameter 10mm from the edge (refer to Figure 35) in accordance with AS 1684 and AS1720.1. If larger or additional stud penetrations are required, then:Option 1: Limited Floor Span Refer to Figure 35 and ensure the following conditions are satisfied: • F7 or MGP10 timber grade• Zero Lot wall is exposed to wind
pressure, it does not exceed N2• Min. stud size 90x45mm• Drill studs within 500mm of stud ends• Limit the lower storey foor span to
5.8m (for MGP10) and 4.6m (F7). Notethat the load width of the Level 1 floorwhich bears onto an internal wall is thesum of the two adjacent
• spans divided by two for simplysupported construction
• Min. Wall height is 2400mmOption 2: Additional Stud
If conditions in Option 1 cannot be satisfied, then ensure to install a double stud as per AS1684. Refer to Figure 35
Coastal AreasIn areas within 1km of a coastal area, areas subject to salt spray and other corrosive environments, class 4 fasteners must be used. All other areas require a minimum class 3 fastener. Fasteners must be fully compatible with all other materials that they are in contact with to ensure the durability and integrity of the assembly. Contact the fastener manufacturer for more information.
Fastener Type LimitationBrad nail and/or adhesive fixings are not recommended in fire and acoustic-rated systems. Please refer to the respective product manufacturer for alternative fixing methods.
Component SubstitutionJames Hardie™ fibre cement products and components such as HardieFire™ insulation and HardieWrap™ weather barrier must be as specified in the system.
No statement of performance will be provided by James Hardie when alternative products are used.
Framing
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Structural Capacity
The load bearing capacities of the timber-framed walls must be in accordance with AS1684 ‘Residential Timber-Framed Construction’ and AS1720 ‘Timber Structures’. Note: Sacrificial timber blocking is installed in addition to the required structural framing members and cannot be relied upon for any structural support.
Stud Size (mm)
Maximum Wall Height (mm)
Stud Load Capacity (kN/stud)
90x35 3000 3.1
90x45 3000 4.3
3600 2.9
90x70 3900 3.5
90x90 4200 3.6
Stud Drilling
Where the stud is to be penetrated horizontally to allow services such as plumbing or electrical conduits to pass between stud bays, only 1 in every 5 studs may be drilled a maximum of 20mm in diameter 10mm from the edge (refer to Figure 35) in accordance with AS 1684 and AS1720.1. If larger or additional stud penetrations are required, then:
Option 1: Limited Floor Span Refer to Figure 35 and ensure the following conditions are satisfied:• F7 or MGP10 timber grade• Zero Lot wall is exposed to wind pressure, it
does not exceed N2• Min. stud size 90x45mm• Drill studs within 500mm of stud ends• Limit the lower storey foor span to 5.8m
(for MGP10) and 4.6m (F7). Note that the load width of the Level 1 floor which bears onto an internal wall is the sum of the two adjacent
• spans divided by two for simply supported construction
• Min. Wall height is 2400mm
Option 2: Additional Stud If conditions in Option 1 cannot be satisfied, then ensure to install a double stud as per AS1684. Refer to Figure 35
Tolerance Ensure frame is square and work from a central datum line. Frames must be straight and true to provide a flush face to receive the sheeting. A suggested maximum tolerance of between 3mm and 4mm in any 3000mm length will give best results.
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Component Installation
HardieWrap™ Weather Barrier
Refer to HardieWrap™ weather barrier datasheet for more information on standard installation. For modular construction, follow this guide.
HardieFire™ Insulation
Must be used as the frame cavity infill and must be compressed 5mm minimum in both vertical and horizontal directions (i.e. batt size must be at a minimum 5mm wider and longer than frame stud bay). Avoid joints in insulation batts, if present, all gaps must be filled with compressed HardieFire™ insulation. Position batts hard against external wall face to allow for an internal service cavity.
Villaboard™ Lining Must be installed in accordance with the current Villaboard™ lining installation guidelines.
HardieZeroLot™ Panel
Follow this guide.
Others For other components not supplied by James Hardie ensure to follow the instructions set out in this guide and the respective manufacturer's recommendations.
Services and FixturesThe service cavity is designed to allow services to be run vertically from the ceiling into the wall. Where services are run horizontally through the studs to pass between bays, refer to the ‘Framing’ section under Design Considerations and Figure 35 for installation guidelines.
Services may only be run in the service cavity between the insulation and the lining (i.e. must not exceed 20mm deep). WARNING: When fixing lining, avoid nailing near pipes or cables as it may cause damage.
Electrical Electrical cables may be run within the service cavity. Refer to Figures 36 to 38.
Plumbing and Electrical Conduits
Plumbing pipes with a diameter up to 20mm may be run in the service cavity as per Figure 35. Any larger pipes must be relocated to non-fire rated partitions. For taps and other details, refer to Figures 39-41.
Wall Fixtures
When fixing brackets, cabinets, shelves or any other fixture that requires the wall to carry a load, they must be fixed to the framing member (i.e. studs) and must not rely solely on the lining.
Air Conditioning
Pipes with an outside diameter up to 20mm and carrying non-flammable refrigerants may be run inside the service cavity.
Tolerance Ensure frame is square and work from a central datum line. Frames must be straight and true to provide a flush face to receive the sheeting. A suggested maximum tolerance of between 3mm and 4mm in any 3000mm length will give best results.
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Component Installation
HardieWrap™ Weather Barrier
Refer to HardieWrap™ weather barrier datasheet for more information on standard installation. For modular construction, follow this guide.
HardieFire™ Insulation
Must be used as the frame cavity infill and must be compressed 5mm minimum in both vertical and horizontal directions (i.e. batt size must be at a minimum 5mm wider and longer than frame stud bay). Avoid joints in insulation batts, if present, all gaps must be filled with compressed HardieFire™ insulation. Position batts hard against external wall face to allow for an internal service cavity.
Villaboard™ Lining Must be installed in accordance with the current Villaboard™ lining installation guidelines.
HardieZeroLot™ Panel
Follow this guide.
Others For other components not supplied by James Hardie ensure to follow the instructions set out in this guide and the respective manufacturer's recommendations.
Services and FixturesThe service cavity is designed to allow services to be run vertically from the ceiling into the wall. Where services are run horizontally through the studs to pass between bays, refer to the ‘Framing’ section under Design Considerations and Figure 35 for installation guidelines.
Services may only be run in the service cavity between the insulation and the lining (i.e. must not exceed 20mm deep). WARNING: When fixing lining, avoid nailing near pipes or cables as it may cause damage.
Electrical Electrical cables may be run within the service cavity. Refer to Figures 36 to 38.
Plumbing and Electrical Conduits
Plumbing pipes with a diameter up to 20mm may be run in the service cavity as per Figure 35. Any larger pipes must be relocated to non-fire rated partitions. For taps and other details, refer to Figures 39-41.
Wall Fixtures
When fixing brackets, cabinets, shelves or any other fixture that requires the wall to carry a load, they must be fixed to the framing member (i.e. studs) and must not rely solely on the lining.
Air Conditioning
Pipes with an outside diameter up to 20mm and carrying non-flammable refrigerants may be run inside the service cavity.
Tolerance Ensure frame is square and work from a central datum line. Frames must be straight and true to provide a flush face to receive the sheeting. A suggested maximum tolerance of between 3mm and 4mm in any 3000mm length will give best results.
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Sacrificial Timber
Sacrificial timber blocking is used in addition to the standard timber framing to protect structural members. Sacrificial timber should have minimum density of 550kg/m3. Where specified, differentiated by red hatching in the Construction Details section of this Guide, sacrificial timber blocks must be a minimum 45mm thick. Sacrificial timber blocks are to be arranged so that they are continuous. If blocks cannot be continuous, additional blocking must be provided in front of the joint. Reference FCO-3222, Figure 5 & Appendix B.6-B.7.
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Construction SequenceWhen constructing a dual zero lot system, one external wall may be built with the standard construction method. The adjacent wall will need to be built in modules. Wall modules can be built in-situ or prefabricated by a specialised frame manufacturer for on-site assembly.
Provide slab separation between tenancies and install termite barrier. See Design Considerations.
Slab Separation
Upper Storey Modular Wall Roof TreatmentInstall HardieFire™ insulation and lining up to the roof linebefore installing roof trusses. See installation steps for modular construction.
Build, tilt, fix and brace wall modules.First Wall Construction
Repeat steps of lower storey; however, note that James Hardie™ Step Flashing is required at the floor junction.
1
2
4 5
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Roof Treatment
Building First FloorSeveral options are available for joist treatment, refer to Construction Details and modular installation steps.
Install HardieFire™ insulation and lining up to the roof linebefore installing roof trusses. See installation steps for modular construction.
Build, tilt, fix and brace wall modules.First Wall Construction
Insulation, Lining and Services.Install HardieFire™ insulation, services and lining. Services are run vertically from the top or bottom plates, see Figure 35 for pipe installation instructions.
3
6
Existing or newly built wall in standard construction method (see p.10-11)
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Construction SequenceWhen constructing a dual zero lot system, one external wall may be built with the standard construction method. The adjacent wall will need to be built in modules. Wall modules can be built in-situ or prefabricated by a specialised frame manufacturer for on-site assembly.
Provide slab separation between tenancies and install termite barrier. See Design Considerations.
Slab Separation
Upper Storey Modular Wall Roof TreatmentInstall HardieFire™ insulation and lining up to the roof linebefore installing roof trusses. See installation steps for modular construction.
Build, tilt, fix and brace wall modules.First Wall Construction
Repeat steps of lower storey; however, note that James Hardie™ Step Flashing is required at the floor junction.
1
2
4 5
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HardieZeroLot™ Panel Installation Steps Unrestricted Site AccessStep 1 Frame PreparationConstruct frame to suit the site wind classification. Note that corners and junctions will require additional stud members. Refer to the relevant Construction Details.
TABLE 1 MAXIMUM STUD AND FASTENER SPACING AS PER AS4055
FIGURE 1 FRAME PREPARATION
Step 3 Foam TapeAt every vertical sheet join, a 50mm foam back sealing tape is applied under the shiplap vertical joint and in front of the HardieWrap™ weather barrier.
FIGURE 2 FOAM TAPE APPLICATION
Step 4 PositionHardieZeroLot™ panel must be installed vertically with all sheet edges fully supported. Centre of sheet joints must coincide with the centre line of the framing member and all sheets are installed in one direction. To ensure the fasteners fixed at the edge of the sheet have sufficient clearance from the edge, position the underlap sheet 3mm beyond the centre of the stud at every stud.
FIGURE 3 FIRST PANEL PLACEMENT
Step 2 Framing, Wrap and FlashingsEnsure that frame is straight. James Hardie recommends a maximum tolerance of 3mm in 3000mm. Affix HardieWrap™ weather barrier to frame followed by corner accessories.
Region N1-N4, C1-C2
N5, C3
N6, C4
Stud Spacing 600 450Panel Fastener Spacing 200 200 125
Ensure adequate ground clearance where required, min. 150mm
See Table 1
Install HardieWrap™ weather barrier, fix with staples at 450mm centres
Fix Corner Accessories in both flanges with a max. 300mm fastener spacing.
Remove protective seal from back of EPDM foam tape
50mm EPDM foam back sealing tape
45mm
18mm
90m
m ti
mbe
r st
ud
50mm EPDM foam back sealing tape
HardieWrap™ weather barrier
Position 3mm beyond stud centre line
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Step 7 Fix Subsequent PanelsStep 5 Fix First PanelFix the first HardieZeroLot™ panel with the recommended nails as per Figure 4. Nails must be driven flush, do not overdrive.
Step 6 Apply Joint Sealant
FIGURE 4 FASTENER SPACING
FIGURE 5 APPLY JOINT SEALANT TO SHIPLAP JOINT
FIGURE 6 SECOND PANEL FASTENER CLEARANCE
Step 8 Coating (only for exposed areas)
HardieZeroLot™ panels are factory sealed with James Hardie's CoreShield™ technology penetrating sealer. This sealer has been designed for zero lot applications and does not require additional coating; however, for wall areas that are visible and fully exposed to the elements, you must apply a roll-on texture coat within 6 months of fixing. All sheets must be dry before painting. James Hardie recommends the application of a roll-on exterior texture coat system over the panels in accordance with the paint manufacturer’s specifications. Some environments require special coatings including coastal areas. Painting specifications are dependant on the paint chosen. Refer to the paint manufacturer for further information, product suitability, specifications, maintenance and details of their warranty.
18mm side edge clearance
12mm top edge clearance
See
Tab
le 1
50mm at corner
50mm EPDM foam back sealing tape
HardieWrap™ weather barrier
Continuous 4mm diameter bead of James Hardie™ Joint Sealant applied to underlap
Notch tip of sealant nozzle to act as a guide down the sheet edge
45mm
18mm
90m
m ti
mbe
r st
ud
50mm EPDM foam back sealing tape
HardieWrap™ weather barrier
6mm
See
Tab
le 1
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HardieZeroLot™ Panel Installation Steps Unrestricted Site AccessStep 1 Frame PreparationConstruct frame to suit the site wind classification. Note that corners and junctions will require additional stud members. Refer to the relevant Construction Details.
TABLE 1 MAXIMUM STUD AND FASTENER SPACING AS PER AS4055
FIGURE 1 FRAME PREPARATION
Step 3 Foam TapeAt every vertical sheet join, a 50mm foam back sealing tape is applied under the shiplap vertical joint and in front of the HardieWrap™ weather barrier.
FIGURE 2 FOAM TAPE APPLICATION
Step 4 PositionHardieZeroLot™ panel must be installed vertically with all sheet edges fully supported. Centre of sheet joints must coincide with the centre line of the framing member and all sheets are installed in one direction. To ensure the fasteners fixed at the edge of the sheet have sufficient clearance from the edge, position the underlap sheet 3mm beyond the centre of the stud at every stud.
FIGURE 3 FIRST PANEL PLACEMENT
Step 2 Framing, Wrap and FlashingsEnsure that frame is straight. James Hardie recommends a maximum tolerance of 3mm in 3000mm. Affix HardieWrap™ weather barrier to frame followed by corner accessories.
Region N1-N4, C1-C2
N5, C3
N6, C4
Stud Spacing 600 450Panel Fastener Spacing 200 200 125
Ensure adequate ground clearance where required, min. 150mm
See Table 1
Install HardieWrap™ weather barrier, fix with staples at 450mm centres
Fix Corner Accessories in both flanges with a max. 300mm fastener spacing.
Remove protective seal from back of EPDM foam tape
50mm EPDM foam back sealing tape
45mm
18mm
90m
m ti
mbe
r st
ud
50mm EPDM foam back sealing tape
HardieWrap™ weather barrier
Position 3mm beyond stud centre line
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Step 2 Set Out Slab or BaseInstall slab separation and termite management system in accordance with the Design Considerations section.
System Installation Steps Restricted Site Access
Step 1 Stage MaterialsThe components required for the HardieSmart™ ZeroLot™ Wall System must be staged during construction. Typically, a set of materials are required at framing stage and others at lining stage. The below lists do not consider all elements required for construction such as nails, adhesives, etc. Refer to the Accessories section for more information.
FRAMING STAGE: Involves building wall modules. These comprise of the following components:• Timber frame• HardieWrap™ weather barrier• HardieZeroLot™ panels• James Hardie™ Step Flashing• James Hardie™ 50mm wide Foam Back Sealing
Tape
NOTE: A small portion of HardieFire™ insulation may be required at framing stage for roof cavity, see installation sequence.
LINING STAGE:• HardieFire™ insulation• Villaboard™ lining• Fire and acoustic-rated joint sealant
FIGURE 7 SLAB SEPARATION
Step 3 Determine Wall Module SizeEnsure you have selected the optimum lengths and heights of wall modules. This is critical to achieve optimum speed of construction and ease of installation. Wall modules height and length should not exceed 3.6m. To determine wall module dimensions, you must consider the following:• HardieZeroLot™ panel sizes;• Boundary wall length and height (wall module must
not exceed storey height);• Module weight, please refer to Table 2.
When planning your wall module lengths, ensure cut edges are placed in the wall ends and intermediate modules are a multiple of the sheet width in length as the shiplap factory edge (Figure 8) is required for module jointing, refer to Figure 15.
TABLE 2 WALL MODULES WEIGHT FOR 600MM STUD CENTRE
Table Notes: Please note that masses and dimensions are approximate only. These are subjected to manufacturing tolerances and other factors such as moisture content. The weights listed below have been used in the values set out in Tables 3 and 4. It does not consider flashings, damp-proof course and any other elements not listed below:• Timber frame: 429 kg/m3. Assuming density of softwood
traditional pine timber studs with a moisture content of 16.2%, which may vary.
• HardieWrap™ weather barrier: 0.11kg/m2• HardieZeroLot™ panels: 12 kg/m2
FIGURE 8 WALL MODULE SIZE AND EDGES
Module Weight (kg)
Module Width (mm)1200 2400 3600 4800
Module Height(mm)
2400 41.5 81.3 121.0 160.82700 46.0 90.3 134.6 178.93000 50.6 99.4 148.2 197.13200 53.6 105.5 157.3 209.2
Concrete slab
Termite barrier in accordance with local regulations
20-5
0mm
10mm separation between slabs using flexible bond breaker
Fact
ory
edge
Fact
ory
edge
Fact
ory
edge
Fact
ory
edge
Cut
edg
es
Cut
edg
es
Sheet width
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Step 4 Build Wall FramesBuild the frame modules on ground with maximum 600mm stud spacings. Add the required additional timber blocking at wall intersections.
Once pre-built, place the frame into position to check levelling. Ensure frame module is levelled and square (e.g. cross-braced).
FIGURE 10 LEVELLING WALL FRAMES
Step 6 HardieWrap™ Weather Barrier and Foam TapeAfter frames are levelled and braced, place back on the ground and install HardieWrap™ weather barrier. It is recommended to fix with a suitable hammer tacker and staples at 450mm centres. Overhang the wrap by min. 150mm from frame side edges. This is required when jointing wall modules, see Figure 15.
Step 5 Level & Brace
1. Ensure that on one end, the overlap of the HardieZeroLot™ panel is hanging off the frame by 25mm.
2. On the other end, the underlap should be 20mm inside the frame edge.
FIGURE 11 HARDIEWRAP™ INSTALLATION
Step 7 HardieZeroLot™ PanelsOn each module:
FIGURE 12 HARDIEZEROLOT™ PANEL INSTALLATION
FIGURE 9 SACRIFICIAL TIMBER AT WALL JUNCTIONS
See Figure 34 for Construction Detail
45x90mm sacrificial timber block at partition junction
HardieWrap™ weather barrier 50mm EPDM foam back sealing tape at sheet joins under shiplap (not required at wall ends)
90mm timber stud
150mm overhang
25mm overhang
A vertical sheet overhang may be required (see Figure 15 for options)
20mm underlap
50mm EPDM foam back sealing tape
HardieWrap™ weather barrier 150mm overhang from edge
HardieZeroLot ™ panel
Modulus width multiples of 1.2m
Shiplap joint
Install 9mm Aluminium Box Corner at wall ends (if 9mm James Hardie™ board is continued on return)
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Step 2 Set Out Slab or BaseInstall slab separation and termite management system in accordance with the Design Considerations section.
System Installation Steps Restricted Site Access
Step 1 Stage MaterialsThe components required for the HardieSmart™ ZeroLot™ Wall System must be staged during construction. Typically, a set of materials are required at framing stage and others at lining stage. The below lists do not consider all elements required for construction such as nails, adhesives, etc. Refer to the Accessories section for more information.
FRAMING STAGE: Involves building wall modules. These comprise of the following components:• Timber frame• HardieWrap™ weather barrier• HardieZeroLot™ panels• James Hardie™ Step Flashing• James Hardie™ 50mm wide Foam Back Sealing
Tape
NOTE: A small portion of HardieFire™ insulation may be required at framing stage for roof cavity, see installation sequence.
LINING STAGE:• HardieFire™ insulation• Villaboard™ lining• Fire and acoustic-rated joint sealant
FIGURE 7 SLAB SEPARATION
Step 3 Determine Wall Module SizeEnsure you have selected the optimum lengths and heights of wall modules. This is critical to achieve optimum speed of construction and ease of installation. Wall modules height and length should not exceed 3.6m. To determine wall module dimensions, you must consider the following:• HardieZeroLot™ panel sizes;• Boundary wall length and height (wall module must
not exceed storey height);• Module weight, please refer to Table 2.
When planning your wall module lengths, ensure cut edges are placed in the wall ends and intermediate modules are a multiple of the sheet width in length as the shiplap factory edge (Figure 8) is required for module jointing, refer to Figure 15.
TABLE 2 WALL MODULES WEIGHT FOR 600MM STUD CENTRE
Table Notes: Please note that masses and dimensions are approximate only. These are subjected to manufacturing tolerances and other factors such as moisture content. The weights listed below have been used in the values set out in Tables 3 and 4. It does not consider flashings, damp-proof course and any other elements not listed below:• Timber frame: 429 kg/m3. Assuming density of softwood
traditional pine timber studs with a moisture content of 16.2%, which may vary.
• HardieWrap™ weather barrier: 0.11kg/m2• HardieZeroLot™ panels: 12 kg/m2
FIGURE 8 WALL MODULE SIZE AND EDGES
Module Weight (kg)
Module Width (mm)1200 2400 3600 4800
Module Height(mm)
2400 41.5 81.3 121.0 160.82700 46.0 90.3 134.6 178.93000 50.6 99.4 148.2 197.13200 53.6 105.5 157.3 209.2
Concrete slab
Termite barrier in accordance with local regulations
20-5
0mm
10mm separation between slabs using flexible bond breaker
Fact
ory
edge
Fact
ory
edge
Fact
ory
edge
Fact
ory
edge
Cut
edg
es
Cut
edg
es
Sheet width
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Step 9 Temporary Bracing
Step 8 Lift First Wall ModuleWall modules may be lifted manually or by crane (this will depend on the module size and weight). If craning modules into position, the lifting points and connections must be designed by the relevant specialist in accordance with the relevant codes and practices. Ensure to anchor frame to slab as per frame manufacturer recommendations.
Place adequate temporary bracing to ensure lateral restraint of the modules.
Step 10 Subsequent Wall Modules
FIGURE 13 LIFT AND ANCHOR - WALL MODULES
FIGURE 14 LIFT AND ANCHOR - WALL MODULES
Step 11 Jointing Wall Modules
Repeat steps 4-9.
FIGURE 15 VERTICAL JOINT OF WALL MODULES
Step 12 Floor JunctionPlace sacrificial timber at the floor junction prior to resting the floor joist on 45mm bearing or fix pole plate to continuous wall.
FIGURE 16 INSTALLING FLOOR JOISTS
Option 1See Figure 24
See Figure 25Option 2
Hei
ght o
f joi
st
Shiplap joint
Suitable sarking tape
Wrap HardieWrap™ weather barrier and tape to studs
45mm solid sacrificial timber blocking
Parallel or perpendicular floor joists with max. 45mm bearing on top plate of frame
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Step 13 Step Flashing
Step 14 Upper Storey
Step 15 Roof Cavity
Step 16 Fix HardieFire™ InsulationAfter the partitions and floor boards have been installed and the upper storey is accessible, fix James Hardie™ Step Flashing to the structural flooring board as indicated below.
FIGURE 17 INSTALLING STEP FLASHING
Repeat steps 3-11 for the upper storey, note that wall modules must extend to the roof line. Refer to Construction Details for roof options.
Based on your roof construction detail follow the appropriate detail (See Figures 26-31). Ensure to fix Villaboard™ lining and HardieFire™ insulation prior to fixing the roof trusses to the wall.
FIGURE 18 ROOF CAVITY FIXING
Install the HardieFire™ insulation within stud bays with at least 5mm compression. Avoid joints in insulation batts, if present, all gaps must be filled with compressed HardieFire™ insulation. Push insulation all the way against the HardieWrap™ weather barrier. ENSURE TO FOLLOW BEST PRACTICE AND WEAR APPROPRIATE PROTECTIVE EQUIPMENT.
FIGURE 19 HARDIEFIRE™ INSTALLATION
FIGURE 21 VILLABOARD™ LINING INSTALLATION
Step 17 Fix Villaboard™ LiningVillaboard™ lining to be installed in accordance with the current installation manual. See Figures
26-31 for options
Step 17 Install ServicesServices to be run vertically from the ceiling into the wall within the stud bay. If stud drilling is required to allow for pipes or conduits, refer to Figure 35 for instructions. Do not penetrate insulation.
Step Flashing, fixed to structural flooring at 300mm centres overlapping bottom HardieZeroLot™ panel
Structural flooring
Floor joist
Parallel or perpendicular roof trusses or frames
HardieFire™ insulation in stud bays underneath cladding
Fit 60mm HardieFire™ insulation to back of stud bay, leaving 30mm clearance for services
Fix Villaboard™ lining at 200mm fixing centres around the edges and 300mm centres through the middle.
FIGURE 20 INSTALLATION OF SERVICES
Refer to Figures 35-41for Construction Details
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Step 9 Temporary Bracing
Step 8 Lift First Wall ModuleWall modules may be lifted manually or by crane (this will depend on the module size and weight). If craning modules into position, the lifting points and connections must be designed by the relevant specialist in accordance with the relevant codes and practices. Ensure to anchor frame to slab as per frame manufacturer recommendations.
Place adequate temporary bracing to ensure lateral restraint of the modules.
Step 10 Subsequent Wall Modules
FIGURE 13 LIFT AND ANCHOR - WALL MODULES
FIGURE 14 LIFT AND ANCHOR - WALL MODULES
Step 11 Jointing Wall Modules
Repeat steps 4-9.
FIGURE 15 VERTICAL JOINT OF WALL MODULES
Step 12 Floor JunctionPlace sacrificial timber at the floor junction prior to resting the floor joist on 45mm bearing or fix pole plate to continuous wall.
FIGURE 16 INSTALLING FLOOR JOISTS
Option 1See Figure 24
See Figure 25Option 2
Hei
ght o
f joi
st
Shiplap joint
Suitable sarking tape
Wrap HardieWrap™ weather barrier and tape to studs
45mm solid sacrificial timber blocking
Parallel or perpendicular floor joists with max. 45mm bearing on top plate of frame
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Construction DetailsBase Details
FIGURE 22 SLAB DETAIL FOR DUAL BOUNDARY SYSTEM
FIGURE 23 SLAB DETAIL FOR SINGLE BOUNDARY
6mm James Hardie™ internal lining
90mm stud
60mm HardieFire™ insulation
HardieZeroLot™ panel
6mm gap fully caulked with fire-rated sealant
Slab separation in accordance with NCC requirements and local regulations (see Design Considerations)
20-50mm
Termite barrier in accordance with local regulations
Damp proof course
HardieWrap™ weather barrier
Boundary line
6mm James Hardie™ internal lining
90mm stud
60mm HardieFire™ insulation
HardieZeroLot™ panel
6mm gap fully caulked with fire-rated sealant
Boundary line
Damp proof courseHardieWrap™ weather barrier
Exi
stin
g n
eig
hbo
urin
g w
all
Slab separation and termite barriers in accordance with local regulations
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Floor Junctions
FIGURE 24 DISCONTINUOUS WALL FLOOR JUNCTION (RECOMMENDED)
FIGURE 25 CONTINUOUS WALL FLOOR JUNCTION
6mm James Hardie™ internal lining
60mm HardieFire™ insulation HardieWrap™ weather barrier
Structural flooring
45mm continuous sacrificial timber blocking behind joists
PERPENDICULAR FLOOR JOIST
PERPENDICULAR FLOOR JOIST
PARALLEL FLOOR JOIST
PARALLEL FLOOR JOIST
45mm continuous sacrificial timber blocking
Non fire-rated ceiling lining
Plaster cornice
60mm HardieFire™ insulation
Structural flooring
Non fire-rated ceiling lining
Plaster cornice
6mm James Hardie™ internal lining
60mm HardieFire™ insulation
James Hardie™ Step Flashing
James Hardie™ Step Flashing
Gap must not exceed 25mm and must be covered by cornice
Gap must not exceed 25mm and must be covered by cornice
HardieZeroLot™ panel
HardieZeroLot™ panel
HardieWrap™ weather barrier
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Construction DetailsBase Details
FIGURE 22 SLAB DETAIL FOR DUAL BOUNDARY SYSTEM
FIGURE 23 SLAB DETAIL FOR SINGLE BOUNDARY
6mm James Hardie™ internal lining
90mm stud
60mm HardieFire™ insulation
HardieZeroLot™ panel
6mm gap fully caulked with fire-rated sealant
Slab separation in accordance with NCC requirements and local regulations (see Design Considerations)
20-50mm
Termite barrier in accordance with local regulations
Damp proof course
HardieWrap™ weather barrier
Boundary line
6mm James Hardie™ internal lining
90mm stud
60mm HardieFire™ insulation
HardieZeroLot™ panel
6mm gap fully caulked with fire-rated sealant
Boundary line
Damp proof courseHardieWrap™ weather barrier
Exi
stin
g n
eig
hbo
urin
g w
all
Slab separation and termite barriers in accordance with local regulations
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Additional structural blocking if required. Refer to Framing
Design Considerations.
Where sacrificial timber cannot be discontinuous, solid timber joist is required
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Roof Details
FIGURE 26 DUAL ZERO LOT ROOF WITH PARALLEL ROOF TRUSSES
FIGURE 27 DUAL ZERO LOT PARAPET ROOF WITH PARALLEL ROOF TRUSSES
6mm James Hardie™ internal lining
60mm HardieFire™ insulation
HardieFire™ insulation
Suitable fire resistant mineral wool insulation to maintain FRL (HardieFire™
insulation not suitable)
Suitable corrosion resistant capping
Perimeter support
Roof sheeting or tiles installed in accordance with manufacturer instructions
6mm James Hardie™ internal lining
60mm HardieFire™ insulation
6mm gap fully caulked with fire-rated sealant
60mm HardieFire™ insulation
Suitable corrosion resistant flashing and capping
Parallel roof truss attached to timber stud
Perimeter support
Roof sheeting or tiles installed in accordance with manufacturer instructions
6mm James Hardie™ internal lining
6mm James Hardie™ internal lining
Gap must not exceed 25mm and must be covered by cornice
HardieWrap™ weather barrier
Boundary line
HardieZeroLot™ panel
90mm stud
HardieWrap™ weather barrier
HardieZeroLot™ panel
Boundary line
90mm stud
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FIGURE 28 DUAL ZERO LOT FRAMED ROOF PERPENDICULAR
FIGURE 29 DUAL ZERO LOT PARAPET ROOF WITH PERPENDICULAR TRUSSES
Roof sheeting or tiles installed in accordance with manufacturer instructions
Suitable fire resistant mineral wool insulation to maintain FRL (HardieFire™ insulation not suitable)
6mm James Hardie™ internal lining (joints not set)
60mm HardieFire™ insulation
60mm HardieFire™ insulation
45mm continuous sacrificial timber blocking
to maintain FRL
Suitable corrosion resistant capping
45mm solid timber pole plate
6mm James Hardie™ internal lining
60mm HardieFire™ insulation
Suitable corrosion resistant capping
Roof sheeting or tiles installed in accordance with manufacturer instructions
Extend metal capping over box gutter upstand to fully protect lining from moisture
Ceiling lining
Ceiling lining
6mm James Hardie™ internal lining (joints not set)
Suitable box gutter, 50mm + height of water
Gap must not exceed 25mm and must be covered by cornice
Gap must not exceed 25mm and must be covered by cornice
HardieWrap™ weather barrier HardieZeroLot™ panel 6mm James Hardie™ internal lining
90mm stud
Boundary line
45mm solid timber pole plate
HardieWrap™ weather barrier
HardieZeroLot™ panel
Boundary line90mm stud
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Roof Details
FIGURE 26 DUAL ZERO LOT ROOF WITH PARALLEL ROOF TRUSSES
FIGURE 27 DUAL ZERO LOT PARAPET ROOF WITH PARALLEL ROOF TRUSSES
6mm James Hardie™ internal lining
60mm HardieFire™ insulation
HardieFire™ insulation
Suitable fire resistant mineral wool insulation to maintain FRL (HardieFire™
insulation not suitable)
Suitable corrosion resistant capping
Perimeter support
Roof sheeting or tiles installed in accordance with manufacturer instructions
6mm James Hardie™ internal lining
60mm HardieFire™ insulation
6mm gap fully caulked with fire-rated sealant
60mm HardieFire™ insulation
Suitable corrosion resistant flashing and capping
Parallel roof truss attached to timber stud
Perimeter support
Roof sheeting or tiles installed in accordance with manufacturer instructions
6mm James Hardie™ internal lining
6mm James Hardie™ internal lining
Gap must not exceed 25mm and must be covered by cornice
HardieWrap™ weather barrier
Boundary line
HardieZeroLot™ panel
90mm stud
HardieWrap™ weather barrier
HardieZeroLot™ panel
Boundary line
90mm stud
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FIGURE 30 DUAL ZERO LOT ROOF WITH PERPENDICULAR TRUSSES AND BOX GUTTER
FIGURE 31 DUAL ZERO LOT ROOF AT DIFFERENT HEIGHTS
45mm solid continuous sacrificial timber
6mm James Hardie™ internal lining
90mm stud 60mm HardieFire™ insulation
HardieWrap™ weather barrier
Corrosion resistant metal flashing to
seal cavity
Roof sheeting or tiles installed in accordance with manufacturer instructions
Ceiling lining
Bottom chords extendedtimber continuous blocking(refer to truss manufacturer)
Timber packers. Any gaps must be filled with fire resistant mineral wool to maintain FRL of wall system (HardieFire™ insulation is not suitable)
HardieWrap™ weather barrier
Suitable corrosion resistant apron flashing to seal cavity
Roof sheeting or tiles installed in accordance with manufacturer instructions
6mm James Hardie™ internal lining
60mm HardieFire™ insulation
Ceiling lining
HardieWrap™ weather barrier
90mm stud
Gap must not exceed 25mm and must be covered by cornice
Gap must not exceed 25mm and must be covered by cornice
HardieZeroLot™ panel
HardieZeroLot™ panel
Suitable corrosion resistant capping
Suitable fire resistant mineral wool insulation to maintain FRL (HardieFire™ insulation not suitable)
Boundary line
HardieZeroLot™ panel
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HARDIESMART™ ZEROLOT™ WALL SYSTEM DESIGN GUIDE OCTOBER 2017 | PAGE 23 OF 32HARDIESMARTTM ZEROLOT™ WALL SYSTEM DESIGN GUIDE APRIL 2017 PAGE 21 OF 28
Wall Junctions
FIGURE 32 JUNCTION WITH LIGHTWEIGHT EXTERNAL WALL
FIGURE 33 JUNCTION WITH BRICK VENEER WALL
6mm gap fully caulked with fire-rated sealant
6mm James Hardie™ internal lining
60mm HardieFire™ insulation
HardieWrap™ weather barrier
90mm stud
HardieWrap™ weather barrier
Axent™ Trim or suitable corner accessory
Selected external cladding
75x75mm James Hardie™ corner flashing
6mm James Hardie™ internal lining
60mm HardieFire™ insulation
HardieWrap™ weather barrier
90mm stud
6mm gap fully caulked with fire-rated sealant
HardieWrap™ weather barrier
Suitable fire resistant mineral wool insulation to maintain FRL (HardieFire™ insulation not suitable)
Brick articulation joint in accordance with manufacturer instructions Corrosion resistant flashing
HardieZeroLot™ panel
Boundary line
HardieZeroLot™ panel
Boundary line
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Non fire-rated internal lining
45mm continuous sacrificial timber blocking, extending from bottom to top plate
Non fire-rated internal lining
45mm continuous sacrificial timber stud, extending from bottom to top plate
HARDIESMARTTM ZEROLOT™ WALL SYSTEM DESIGN GUIDE APRIL 2017 PAGE 20 OF 28
FIGURE 30 DUAL ZERO LOT ROOF WITH PERPENDICULAR TRUSSES AND BOX GUTTER
FIGURE 31 DUAL ZERO LOT ROOF AT DIFFERENT HEIGHTS
45mm solid continuous sacrificial timber
6mm James Hardie™ internal lining
90mm stud 60mm HardieFire™ insulation
HardieWrap™ weather barrier
Corrosion resistant metal flashing to
seal cavity
Roof sheeting or tiles installed in accordance with manufacturer instructions
Ceiling lining
Bottom chords extendedtimber continuous blocking(refer to truss manufacturer)
Timber packers. Any gaps must be filled with fire resistant mineral wool to maintain FRL of wall system (HardieFire™ insulation is not suitable)
HardieWrap™ weather barrier
Suitable corrosion resistant apron flashing to seal cavity
Roof sheeting or tiles installed in accordance with manufacturer instructions
6mm James Hardie™ internal lining
60mm HardieFire™ insulation
Ceiling lining
HardieWrap™ weather barrier
90mm stud
Gap must not exceed 25mm and must be covered by cornice
Gap must not exceed 25mm and must be covered by cornice
HardieZeroLot™ panel
HardieZeroLot™ panel
Suitable corrosion resistant capping
Suitable fire resistant mineral wool insulation to maintain FRL (HardieFire™ insulation not suitable)
Boundary line
HardieZeroLot™ panel
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PAGE 24 OF 32 | HARDIESMART™ ZEROLOT™ WALL SYSTEM DESIGN GUIDE OCTOBER 2017HARDIESMARTTM ZEROLOT™ WALL SYSTEM DESIGN GUIDE APRIL 2017 PAGE 22 OF 28
FIGURE 34 INTERNAL NON FIRE-RATED WALL JUNCTION
6mm gap fully caulked with fire-rated sealant
6mm James Hardie™ internal lining
60mm HardieFire™ insulation
90mm stud
Non fire-rated internal lining
45mm continuous sacrificial timber stud, extending from bottom to top plate
HardieZeroLot™ panel
HardieWrap™ weather barrier
Boundary line
2207-63_JH_HardieSmart_Zerolot_Design_Guide_2A_PP.indd 22 26/06/2017 10:42 AM
2 x additional timber studs
HA
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ie™
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ieFire
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ieW
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ieFire
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ieW
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HARDIESMART™ ZEROLOT™ WALL SYSTEM DESIGN GUIDE OCTOBER 2017 | PAGE 25 OF 32HARDIESMARTTM ZEROLOT™ WALL SYSTEM DESIGN GUIDE APRIL 2017 PAGE 23 OF 28
FIGURE 35 PIPE SERVICE PENETRATIONS THROUGH TIMBER STUDS AND PLATES
Wall Services
Install additional 45mm timber block
Max. 20mm drill or notch
Max. 20mm drill or notch
5 Studs
Step 3 (if required)If stud drilling for more than 1 in every 5 studs is required to pass pipes, a restricted drill height must be followed (Option 1) or alternatively, a fixeddouble stud (Option 2) isinstalled.
Step 4Treat the pipe wall exit in accordance with the relevant Construction Detail in this guide.
* Option 1 has a minimum wall height of 2400mm, minimum stud width of 45mm and a limited allowable lower storey floor span of 6m for MGP10 timber grade and 5m for F7 timber grade. For other grades or timber sizes Option 2 must be followed. Refer to Design Considerations for more information or contact James Hardie Engineering Solutions on 13 11 03.
Step 1Run all pipes and conduits through ceiling or floor.
Step 2Drill or notch (max. 20mm) top/bottom plate to run the pipes into the required stud bay.
DRILLING THE PLATE
DRILLING STUDS
OP
TIO
N 1
* (4
5mm
stu
d)
OP
TIO
N 2
DRILLING BOTTOM PLATE
Ceiling lining
Structural floor
HOLE CLEARANCE
90mm
Max 20mm
10mm
Min. 270mm
500m
m
DR
ILL
CLE
AR
AN
CE
DR
ILL
500m
m
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HARDIESMARTTM ZEROLOT™ WALL SYSTEM DESIGN GUIDE APRIL 2017 PAGE 22 OF 28
FIGURE 34 INTERNAL NON FIRE-RATED WALL JUNCTION
6mm gap fully caulked with fire-rated sealant
6mm James Hardie™ internal lining
60mm HardieFire™ insulation
90mm stud
Non fire-rated internal lining
45mm continuous sacrificial timber stud, extending from bottom to top plate
HardieZeroLot™ panel
HardieWrap™ weather barrier
Boundary line
2207-63_JH_HardieSmart_Zerolot_Design_Guide_2A_PP.indd 22 26/06/2017 10:42 AM
2 x additional timber studs
PAGE 26 OF 32 | HARDIESMART™ ZEROLOT™ WALL SYSTEM DESIGN GUIDE OCTOBER 2017HARDIESMARTTM ZEROLOT™ WALL SYSTEM DESIGN GUIDE APRIL 2017 PAGE 24 OF 28
FIGURE 36 ELECTRICAL SERVICES (GPO/POWER POINTS) - SECTION FROM ABOVE
Standard GPO installed in accordance with manufacturer's instructions
6mm gap fully caulked
with fire-rated sealant
Pin cables to the side
HardieWrap™ weather barrier
6mm James Hardie™ internal lining
60mm HardieFire™ insulation
90mm stud
Drill or notch through stud to run cables where necessary.
WARNING: Avoid foil contact with uninsulated cables and fittings, refer to Safety Section for more information
HardieZeroLot™
panel
FIGURE 37 ELECTRICAL SERVICES (GPO/POWER POINTS) - SECTION FROM SIDE
HardieWrap™ weather barrier
60mm HardieFire™ insulation
Bracket for power point fixed to stud
Electrical cables pinned or taped to stud where required
Standard GPO installed in accordance with manufacturer's instructions
6mm James Hardie™ internal lining
WARNING: Avoid foil contact with uninsulated cables and fittings, refer to Safety Section for more information.
HardieZeroLot™ panel
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HARDIESMART™ ZEROLOT™ WALL SYSTEM DESIGN GUIDE OCTOBER 2017 | PAGE 27 OF 32HARDIESMARTTM ZEROLOT™ WALL SYSTEM DESIGN GUIDE APRIL 2017 PAGE 25 OF 28
FIGURE 38 ELECTRICAL SERVICES (GPO/POWER POINTS) PERSPECTIVE
Standard GPO installed in accordance with manufacturer's instructions
Bracket for powerpoint fixed to stud
Cables pinned to stud edges
6mm James Hardie™ internal
lining
60mm HardieFire™
insulation
WARNING: Avoid foil contact with uninsulated cables and fittings, refer to Safety Section for more information.
FIGURE 39 HOT/COLD PLUMBING TAPS - PERSPECTIVE
Selected James Hardie™ external cladding 6mm thick or greater
Plumbing services run vertically through 30mm service cavity.
6mm Villaboard™ lining installed, waterproofed and tiled as per Wet Area Construction Guide
90x45mm additional timber noggin for tap support. Insert nogging prior to HardieFire™ insulation
60mm HardieFire™ insulation
Continuous 6mm bead of wet area appropriate fire-rated sealant around tap
HardieWrap™ weather barrier
WARNING: When fixing lining, avoid nailing near pipes or cables as it may cause damage. Refer to Figure 35 for plate and stud penetration details.
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HARDIESMARTTM ZEROLOT™ WALL SYSTEM DESIGN GUIDE APRIL 2017 PAGE 24 OF 28
FIGURE 36 ELECTRICAL SERVICES (GPO/POWER POINTS) - SECTION FROM ABOVE
Standard GPO installed in accordance with manufacturer's instructions
6mm gap fully caulked
with fire-rated sealant
Pin cables to the side
HardieWrap™ weather barrier
6mm James Hardie™ internal lining
60mm HardieFire™ insulation
90mm stud
Drill or notch through stud to run cables where necessary.
WARNING: Avoid foil contact with uninsulated cables and fittings, refer to Safety Section for more information
HardieZeroLot™
panel
FIGURE 37 ELECTRICAL SERVICES (GPO/POWER POINTS) - SECTION FROM SIDE
HardieWrap™ weather barrier
60mm HardieFire™ insulation
Bracket for power point fixed to stud
Electrical cables pinned or taped to stud where required
Standard GPO installed in accordance with manufacturer's instructions
6mm James Hardie™ internal lining
WARNING: Avoid foil contact with uninsulated cables and fittings, refer to Safety Section for more information.
HardieZeroLot™ panel
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PAGE 28 OF 32 | HARDIESMART™ ZEROLOT™ WALL SYSTEM DESIGN GUIDE OCTOBER 2017HARDIESMARTTM ZEROLOT™ WALL SYSTEM DESIGN GUIDE APRIL 2017 PAGE 26 OF 28
FIGURE 41 HOT/COLD PLUMBING TAPS - SECTION FROM SIDE
HardieWrap™ weather barrier
60mm HardieFire™ insulationPlumbing services
run vertically through 30mm service cavity.
6mm Villaboard™ lining installed, waterproofed
and tiled as per Wet Area Construction Guide
90x45mm additional timber noggin for tap support. Insert nogging prior to HardieFire™ insulation
Continuous 6mm bead of wet area appropriate fire-rated sealant around tap
WARNING: When fixing lining, avoid nailing near pipes or cables as it may cause damage. Refer to Figure 35 for plate and stud penetration details.
HardieZeroLot™ panel
FIGURE 40 HOT/COLD PLUMBING TAPS - SECTION FROM ABOVE
HardieWrap™ weather barrier
Plumbing services run through 30mm service cavity
6mm Villaboard™ lining installed, waterproofed and tiled as per Wet Area Construction Guide
Refer to Figure 35 for drill hole size and location
90x45mm additional timber noggin for tap support. Insert nogging prior to HardieFire™ insulation
Continuous 6mm bead of wet area appropriate fire-rated sealant around tap
WARNING: When fixing lining, avoid nailing near pipes or cables as it may cause damage. Refer to Figure 35 for plate and stud penetration details.
HardieZeroLot™
panel
2207-63_JH_HardieSmart_Zerolot_Design_Guide_2A_PP.indd 26 26/06/2017 10:42 AM
HARDIESMART™ ZEROLOT™ WALL SYSTEM DESIGN GUIDE OCTOBER 2017 | PAGE 29 OF 32HARDIESMARTTM ZEROLOT™ WALL SYSTEM DESIGN GUIDE APRIL 2017 PAGE 27 OF 28
Online ToolsEstimation tools, CAD details, and site specific documents are available via James Hardie's specification website accel.com.au. For more information visit the www.jameshardie.com.au or Ask James Hardie™ on 13 11 03
WarrantyHardieSmart™ Wall System components supplied by James Hardie are backed by a Warranty. The Warranty period will vary based on the specific system component. For Warranty Terms & Conditions refer to www.jameshardie.com.au or Ask James Hardie™ on 13 11 03.
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HARDIESMARTTM ZEROLOT™ WALL SYSTEM DESIGN GUIDE APRIL 2017 PAGE 26 OF 28
FIGURE 41 HOT/COLD PLUMBING TAPS - SECTION FROM SIDE
HardieWrap™ weather barrier
60mm HardieFire™ insulationPlumbing services
run vertically through 30mm service cavity.
6mm Villaboard™ lining installed, waterproofed
and tiled as per Wet Area Construction Guide
90x45mm additional timber noggin for tap support. Insert nogging prior to HardieFire™ insulation
Continuous 6mm bead of wet area appropriate fire-rated sealant around tap
WARNING: When fixing lining, avoid nailing near pipes or cables as it may cause damage. Refer to Figure 35 for plate and stud penetration details.
HardieZeroLot™ panel
FIGURE 40 HOT/COLD PLUMBING TAPS - SECTION FROM ABOVE
HardieWrap™ weather barrier
Plumbing services run through 30mm service cavity
6mm Villaboard™ lining installed, waterproofed and tiled as per Wet Area Construction Guide
Refer to Figure 35 for drill hole size and location
90x45mm additional timber noggin for tap support. Insert nogging prior to HardieFire™ insulation
Continuous 6mm bead of wet area appropriate fire-rated sealant around tap
WARNING: When fixing lining, avoid nailing near pipes or cables as it may cause damage. Refer to Figure 35 for plate and stud penetration details.
HardieZeroLot™
panel
2207-63_JH_HardieSmart_Zerolot_Design_Guide_2A_PP.indd 26 26/06/2017 10:42 AM
CodeMark Certification
Certificate CM20136
PAGE 30 OF 32 | HARDIESMART™ ZEROLOT™ WALL SYSTEM DESIGN GUIDE OCTOBER 2017HARDIESMARTTM BOUNDARY WALL SYSTEM DESIGN GUIDE APRIL 2017 PAGE 18 OF 20
Notes
HARDIESMART™ ZEROLOT™ WALL SYSTEM DESIGN GUIDE OCTOBER 2017 | PAGE 31 OF 32HARDIESMARTTM BOUNDARY WALL SYSTEM DESIGN GUIDE APRIL 2017 PAGE 19 OF 20HARDIESMARTTM BOUNDARY WALL SYSTEM DESIGN GUIDE APRIL 2017 PAGE 18 OF 20
Notes
For information and advice call 13 11 03 | jameshardie.com.au
© 2017 James Hardie Australia Pty Ltd ABN 12 084 635 558 ™ and ® denote a trademark or registered mark owned by James Hardie Technology Limited.
Australia October 2017