- Large range of standard and made to order sizes
- Large range of clips to suit a wide variety of different wall and ceiling applications
- Part of complete system from Siniat including plasterboard and compounds
- Backed by our world leading multidisciplinary Technical Services Engineering Team, part of our Siniat Solutions range of support services and tools
Siniat metal components are made using corrosion resistant grade materials engineered for Australian conditions and relevant standards. Stud and track, along with many other metal framing components, are made from Grade 300 MPa steel with corrosion protection of Zincalume ‘Next Generation’ AM150. Zincalume AM150 is a corrosion protection coating of Aluminium, Magnesium and Zinc alloy that coats the steel on both sides for superior added strength and corrosion resistance. It provides customers with the reassurance that our range delivers the highest grade of corrosion resistance in the industry to meet the harsh conditions of the Australian environment.
Siniat procures steel coils which comply with AS 1397: 2011 Continuous hot dip metallic coated steel sheet and strip – Coatings of zinc and zinc alloyed with aluminium and magnesium. The steel coils also comply with AS/NZS 1365:1996 Tolerances for flat-rolled steel products.
Siniat metal systems include steel stud wall systems, furring channel and batten wall systems, top hat and façade systems, jamb stud, acoustic studs, concealed and exposed ceiling systems together with a range of access panels and plaster finishing accessories.
Siniat Metal Framing Systems are robust, versatile and durable, and suitable for use in all internal and external framing applications. The wide variety of Siniat system components - from Siniat Stud and Track to Siniat Deflection Head Track DH, Siniat Nogging Track through to our innovative Siniat Track Flexible - are available in multiple widths, lengths and gauges, ensuring there is a Siniat Metal Framing system suitable for all framing applications and engineering requirements.
Siniat Concealed Ceiling Systems use a variety of products which are used to create a stable substrate to which various types of boards can then be screw fixed. These systems can be fixed directly to supporting structures or suspended below them. Siniat plasterboard and ceiling linings offer a range of functional properties, depending on the design requirements. They can be used to achieve Fire Rating, Acoustic and Thermal barriers.
Siniat Concealed Ceiling Systems consist of robust, lightweight products suitable for use in both direct fix and fully suspended concealed ceiling systems. Siniat Concealed Ceiling Systems can be used for both fire rated and non-fire rated applications and have been designed to meet all relevant Australian Standards as specified by the BCA (Building Code of Australia).
The range includes Siniat Furring Channel, Siniat Top Cross Rail and Siniat Battens with Siniat Top Hats and associated fixings and clips. The wide variety of products available ensures there is a concealed ceiling system configuration suitable for all spanning, fire rated and acoustic and design requirements.
For further information regarding Siniat Concealed Ceiling Systems, please contact our helpful Siniat Technical Services Engineering Team.
To design the frame for a wall or ceiling system, first the loads acting on the system must be determined. The most common loads which may act on a wall or ceiling system include:
- Dead loads (G): Weight of the wall or ceiling itself.
- Live loads (Q): Shelf loads, Hand-rail loads, Impact loads, and any other variable loads.
- Wind loads (W): External wind loads, and internal wind loads.
- Services loads (U): A nominal service load specific to ceiling systems.
- Earthquake loads (E): Forces acting on wall and ceiling systems due to a seismic event.
Products can be selected for the construction of simple internal walls by referring to our pre-engineered wall height tables for internal walls which are available to download here.
The maximum heights achievable for steel stud wall systems are based on wall height testing and calculations based upon a single span and designed in accordance with AS/NZS 4600:2005 Cold Formed Steel Structures. Maximum wall heights and based upon lateral pressures and the deflection limits stated.
The BCA (Building Code of Australia) defines discontinuous construction as a wall having a minimum 20mm cavity between two separate leaves. Where the BCA (Building Code of Australia) requires a discontinuous wall, two separate walls must be constructed side by side. Each wall is sheeted on one side only and appropriate insulation is placed between the studs on at least one side. This type of wall configuration provides excellent acoustic performance against airborne noise and acoustic impact. As the walls are sheeted on one side only, at least one row of nogging should be installed in each wall. For details on stud selection and spacing refer to the Siniat Blueprint, or contact our helpful Siniat Technical Services Engineering team. Refer to Siniat Plasterboard Installation Guide for complete plasterboard installation instructions.
As well as the loads acting on the wall it is crucial to allow for the following additional factors when selecting which steel stud and track to use in a particular wall system:
Fire resistance
- Fire Rated Internal Walls are designed using a minimum of 0.35kPa (working) internal lateral wind pressures. The framing itself does not have a specified fire rating. The Fire Resistance Level or (FRL) of the wall is dependent on the number and type of boards fixed to the frame.
- Siniat Metal framing members have been fire tested as part of a system or systems. For selection of Siniat Metal components to be used in Fire Rated Walls further guidance can be found in Siniat Blueprint, or by using our Siniat Frame Finder and System Selector or by contacting our helpful Siniat Technical Services Engineering Team.
- Load bearing compared to non-load bearing walls Products selected for walls which are load bearing require special consideration. Contact our Siniat Technical Services Engineering Team for advice. Vertical Load Bearing Walls do not allow for any vertical deflection. Non-load Bearing Walls can accommodate vertical deflection when the correct products are selected and installed. The required amount of vertical deflection is determined by the design of the supporting structure. Please refer to lateral and vertical deflection advice below.
Acoustic performance
Products selected for acoustic walls are typically selected based on the acoustic performance of the entire system once the fire rating has been allowed for. Refer to Acoustic Stud Wall Framing Systems for more information.
- Thermal performance
Energy efficient construction requires a building envelope that resists the transfer of heat. This thermal resistance is measured as an R-Value. Total R-Value is one of the most important indicators of the thermal performance of a building element. The higher the Total R-Value, the better the thermal insulation, i.e. the longer it takes the heat to get into the building (in summer) or out of the building (in winter). Refer to our easy to use online Wall Thermal Calculator that allows you to build up your wall, layer by layer and get the estimated Total R-Value.
- Lateral and vertical deflection
Siniat Metal Wall Systems typically allow for a maximum of H/240 lateral deflection. The H is the wall height expressed in (mm). Therefore for a wall 2400mm high, 2400 is divided by 240 resulting in lateral deflection of up to 10mm at maximum design pressures. Some types of brittle wall boards or finishing products e.g. tiles, may require less deflection of the wall to avoid cracking of the product. Lateral deflection can be minimised by designing for H/360 or H/500 etc. For selection of Siniat Metal components to be used in walls with specific lateral deflection limits contact our helpful Siniat Technical Services Engineering Team.
Vertical Load Bearing Walls do not allow for any vertical deflection. Non-load Bearing Walls can accommodate vertical deflection when the correct products are selected and installed. The required amount of vertical deflection is determined by the design of the supporting structure.
Refer to Siniat Blueprint for further guidance on structural frame design for internal walls
The Siniat Wind Load Calculator is one of many design support tools and used to determine the wind loads applicable to non-load bearing walls. Once this has been determined, the helpful Siniat Frame Finder can help to determine the right framing system to suit your project specific requirements.
Walls that are required to allow for vertical deflection must have a Deflection Head Track at the top of the wall. The Deflection Head Track is a 50mm deep profile. The studs must be cut 20mm short of the supporting structure - this allows for the structure to deflect downwards up to 20mm without causing damage to the wall below.
The Siniat Deflection Head Track can be simply ‘friction fit’ into the Deflection Head Track just as it would with a Standard Head Track. For most internal walls in the 2400mm to 3600mm height range the stud can simply be friction fit into the Deflection Head Track just as it would with a Standard Head Track. Alternatively, the Siniat 92mm Slotted Deflection Head Track enables the use of a screw or fastener fixed connection in lieu of the friction fit installation method.
Siniat is Australia’s leading supplier of complete wall and ceiling systems. Our complete systems are designed, manufactured and tested to provide our customers with the peace of mind of full system performance and ease of installation, all backed by a unique system warranty. We consider the safety and compliance of our systems and your projects to be of paramount importance.
By being experts in more than one area, we have developed a unique advantage in being able to provide expert technical & engineering support for complete product systems and solutions to some of Australia’s most challenging projects.
Siniat Knowhow: Our team of multi-disciplinary world class experts can do so much more than design your metal wall framing…