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Mechanical Properties of Spruce Wood Extracted from GLT Beams Loaded by Fire

Author

Listed:
  • Lucie Kucíková

    (Department of Mechanics, Faculty of Civil Engineering, Czech Technical University in Prague, 166 29 Prague, Czech Republic)

  • Michal Šejnoha

    (Department of Mechanics, Faculty of Civil Engineering, Czech Technical University in Prague, 166 29 Prague, Czech Republic)

  • Tomáš Janda

    (Department of Mechanics, Faculty of Civil Engineering, Czech Technical University in Prague, 166 29 Prague, Czech Republic)

  • Jan Sýkora

    (Department of Mechanics, Faculty of Civil Engineering, Czech Technical University in Prague, 166 29 Prague, Czech Republic)

  • Pavel Padevět

    (Department of Mechanics, Faculty of Civil Engineering, Czech Technical University in Prague, 166 29 Prague, Czech Republic)

  • Guido Marseglia

    (High Technical School of Architecture, University of Seville, 41012 Seville, Spain
    Instituto de Matemáticas de la Universidad de Sevilla, University of Seville, 41012 Seville, Spain)

Abstract

Heating wood to high temperature changes either temporarily or permanently its physical properties. This issue is addressed in the present contribution by examining the effect of high temperature on residual mechanical properties of spruce wood, grounding on the results of full-scale fire tests performed on GLT beams. Given these tests, a computational model was developed to provide through-thickness temperature profiles allowing for the estimation of a charring depth on the one hand and on the other hand assigning a particular temperature to each specimen used subsequently in small-scale tensile tests. The measured Young’s moduli and tensile strengths were accompanied by the results from three-point bending test carried out on two groups of beams exposed to fire of a variable duration and differing in the width of the cross-section, b = 100 mm (Group 1) and b = 160 mm (Group 2). As expected, increasing the fire duration and reducing the initial beam cross-section reduces the residual bending strength. A negative impact of high temperature on residual strength has also been observed from simple tensile tests, although limited to a very narrow layer adjacent to the charring front not even exceeding a typically adopted value of the zero-strength layer d 0 = 7 mm. On the contrary, the impact on stiffness is relatively mild supporting the thermal recovery property of wood.

Suggested Citation

  • Lucie Kucíková & Michal Šejnoha & Tomáš Janda & Jan Sýkora & Pavel Padevět & Guido Marseglia, 2021. "Mechanical Properties of Spruce Wood Extracted from GLT Beams Loaded by Fire," Sustainability, MDPI, vol. 13(10), pages 1-19, May.
    • Handle: RePEc:gam:jsusta:v:13:y:2021:i:10:p:5494-:d:554510
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    Citations

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    Cited by:

    1. Sara Dias & António Tadeu & Amílcar Ramalho & Michael Brett & Filipe Pedro, 2022. "Thermal and Mechanical Characterisation of Sandwich Core Materials for Climatic Chamber Shells Subjected to High Temperatures," Energies, MDPI, vol. 15(6), pages 1-18, March.
    2. Bin Tan, 2022. "Experimental Study on Damage Evolution Characteristics of Concrete under Impact Load Based on EMI Method," Sustainability, MDPI, vol. 14(17), pages 1-15, August.

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