Multi-Scale Characterisation of the Fire Hazards of Timber Cladding

Multi-Scale Characterisation of the Fire Hazards of Timber Cladding

Blog Article

Timber-clad facades, traditionally prevalent in North America and Scandinavia, are gaining popularity in central Europe and the UK for applications beyond low-rise buildings.Timber differs from typical cladding materials, such as masonry, due to its non-uniformity, combustibility, and moisture sensitivity, requiring unique design considerations to manage these Hood characteristics.This paper investigates the fire hazards associated with timber cladding, particularly focusing on thermally modified timber, motivated by the 2019 Samuel Garside House fire in the UK.The study aims to address five key research questions: (1) the impact of thermal modification on external fire spread hazards, (2) the fire risk associated with slatted timber configurations, (3) the effectiveness of fire-retardant treatments, (4) the correlation between small-scale standard tests and large-scale behaviours, and (5) the adequacy of current fire safety guidance in addressing these hazards.

The experimental campaign involved four timber sample variants: (i) virgin timber, (ii) new thermally BLOCK Magazine modified timber, (iii) aged thermally modified timber, and (iv) fire-retardant-treated thermally modified timber.These samples were tested across four different methods, including the single-flame source test, mass loss cone test, single burning item (SBI) test, and an intermediate-scale test.Results indicated that thermal modification slightly increased the peak heat release rate (HRR) compared to virgin timber.The configuration of timber slats significantly impacted HRR, with vertically oriented slats demonstrating higher HRR than horizontally oriented flat cedar cladding.

Fire-retardant treatments substantially reduced HRR, achieving Euroclass B in vertical slatted configurations.However, the long-term efficacy of these treatments under ageing and weathering conditions remains unexplored.This research underscores the need for clarifications in the guidance in timber cladding design, considering the observed fire hazards in different slat configurations and the efficacy of fire-retardant treatments.