AS 4072.1 applies to all firestopping systems for service penetrations and control joints, regardless of the substrate. However, the requirements — and the tested solutions — differ significantly between plasterboard and concrete walls. Understanding these

Electrical substations are critical infrastructure, and their fire protection requirements are among the most stringent in the construction industry. In Australia, compliance is guided by specific utility standards such as Ausgrid’s NS171 (Fire Stopping of

Firestopping is a crucial aspect of passive fire protection, yet our inspections consistently reveal avoidable mistakes that compromise compliance and safety. These errors can lead to failed audits, costly rectifications, and increased liability for builders

AS 1530.4 is the Australian Standard that underpins the fire resistance testing of building materials, systems, and components. If you’re involved in passive fire protection—whether as a designer, installer, or certifier—understanding this standard is essential.

In passive fire protection, the annular gap — the space between a service (such as a pipe, cable or duct) and the wall or floor it penetrates — may appear insignificant, but its proper treatment

Fire collars are vital components in any passive fire protection strategy, particularly where combustible pipes pass through fire-rated walls or floors. Selecting the correct collar requires a clear understanding of the pipe material, the characteristics

In passive fire protection, coating structural steel to maintain its integrity during a fire is a critical requirement. Two of the most commonly used solutions are vermiculite spray coatings and intumescent paints. While both are

The National Construction Code (NCC) is Australia’s definitive framework for ensuring the safety and performance of buildings. It sets requirements for structural adequacy, accessibility, energy efficiency and, critically, fire safety. Passive fire protection (PFP) systems

AS 4072.1 is one of the cornerstone Australian Standards governing passive fire protection in buildings. Specifically, it sets out the requirements for how service penetrations (such as pipes, cables, and ducts) and control joints must

Preserving Lives and History Through Fire Safety The primary goal of passive fire protection is to save lives, but it also plays a crucial role in preserving history. Tragically, countless historically significant buildings have been