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Citation |
Lin S, Qin Y, Huang X, Gollner M. Fire Safety J. 2023; 136: e103745. |
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Copyright |
(Copyright © 2023, Elsevier Publishing) |
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DOI |
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PMID |
unavailable |
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Abstract |
Wood is one of the most commonly-used and sustainable construction materials, but it is flammable in nature. Pre-charring is an ancient approach used to protect wooden construction materials against biochemical impacts, but its effectiveness in improving fire performance is still poorly understood. This work proposes a novel method to generate engineered wood with a uniform and robust surface char layer through slow pyrolysis under low thermal irradiation of 20 kW/m2. We found that the flammability of the pre-charred wood can be significantly reduced under higher irradiations up to 50 kW/m2 by increasing the ignition time by up to seven-fold and doubling the ignition temperature to about 670 °C. For the tested wood species (Merbau), we quantify a minimum char-layer thickness of 6 ± 1 mm to achieve effective fire retardancy. The fire hazards of pre-charred wood are also mitigated significantly, where observed flames become weaker, thinner, and bluer than that of the virgin wood. The peak heat release rate of burning pre-charred wood is reduced by over 50%, helping maintain the fire resilience of timber structures. This work quantifies the fire performance of pre-charred wood, highlighting a promising direction toward fire-safe timber construction materials. Language: en |
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Keywords |
Fire retardancy; Ignition; Material flammability; Reaction to fire; Sustainable construction; Timber building |