Light Gauge Steel (LGS) Framing
Cold-formed light gauge steel framing is the primary structural system used in BSA residential and medium-density construction. LGS provides a dimensionally stable, non-combustible, and termite-resistant alternative to timber framing.
Technical Overview
Light gauge steel framing uses cold-formed steel sections (typically G550 or G300 grade) in C-section and Z-section profiles. Wall frames, floor cassettes, and roof trusses are manufactured from LGS. The system is designed to AS/NZS 4600 (Cold-Formed Steel Structures) and AS 4055 (Wind Loads for Housing). Factory production of LGS frames allows tight dimensional tolerances and quality control before delivery to site.
Key Properties
Construction Sequence
Design and engineering
Structural engineer designs LGS frame to AS/NZS 4600 based on architectural drawings, wind region, and site conditions.
Factory fabrication
LGS sections are roll-formed and cut to length in the factory. Wall frames, floor cassettes, and roof trusses are assembled and labelled for site installation.
Quality inspection
Factory QA inspection of all frames before dispatch. Dimensional checks and connection verification.
Site delivery and installation
Frames delivered flat-packed to site. Wall frames are stood and braced. Floor cassettes are installed on bearers or slab. Roof trusses are craned into position.
Connections and bracing
All connections made with self-drilling screws to engineer's specification. Bracing installed per engineering drawings.
Inspection
Frame inspection by building surveyor before lining.
Performance Data
Fire performance
Non-combustible framing — contributes to fire-rated wall and floor systems when combined with appropriate linings
Acoustic performance
LGS framing alone provides limited acoustic isolation — acoustic performance is achieved through the complete wall or floor system including linings and insulation
Thermal performance
Steel is a thermal conductor — thermal bridging reduces effective R-value of insulation. Manage with continuous insulation or thermal break products.
Wind resistance
Designed to AS 4055 wind region and terrain category for the site
Seismic performance
Designed to AS 1170.4 seismic requirements for the site
Compliance Pathway
Structural engineer to design LGS frame to AS/NZS 4600 and AS 4055. Engineering drawings required for building permit.
Building permit required from relevant building surveyor. Engineering certificate required.
Frame inspection by building surveyor before lining. Mandatory inspection stage in most jurisdictions.
Occupancy permit or certificate of final inspection from building surveyor.
Technical Diagram Reference
LGS wall frame cross-section showing C-section studs at 600mm centres, top and bottom plates, noggings, and connection details. Floor cassette showing LGS joists, bridging, and connection to wall frame.
Technical diagrams, shop drawings, and BIM models are available to project partners and registered consultants. Contact Building Solution Australia for access.
Important Notice
Technical information in this section is provided for general educational purposes only. It does not constitute engineering advice, building advice, or legal advice. Construction systems must be designed by qualified engineers for specific projects and sites. Compliance requirements vary by jurisdiction, building class, and site conditions. Always engage a qualified structural engineer, building surveyor, and other relevant consultants for your specific project.
