Thermal Degradation of Bending Properties of Structural Larch Wood

Hai Bin Zhou; Chuan Shuang Hu; Jian Hui Zhou

doi:10.4028/www.scientific.net/AMR.557-559.1563

Paper Titles

Preparation and Application of Pd-Based Stainless Steel Wire Mesh Monolith Catalyst
p.1543

Rapid Microwave Synthesis and Fluorescence of LaF₃ and LaF₃:Re (Re=Ce³⁺, Eu³⁺, Tb³⁺) Nanocrystals
p.1547

Preparation and Performance of Enviromentally Friendly Chemical Cleaner
p.1552

Synthesis and Properties of a Thermo-/Light-Sensitive Hydrogel
p.1556

Thermal Degradation of Bending Properties of Structural Larch Wood
p.1563

Nonlinear Vibration Analysis of Fiber Movement
p.1567

Experimental and Numerical Study of Premixed Combustion within Porous Media
p.1572

Effect of Carbon Pretreatment on Cerium Loaded Activated Carbon as Desulfurization Adsorbents
p.1584

Preparation and Application Properties Appraisement of Ecological Polyacrylate Pigment Binder
p.1588

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 557-559Thermal Degradation of Bending Properties of...

Thermal Degradation of Bending Properties of Structural Larch Wood

Abstract:

Wood is being used extensively in timber construction in China. It is important to understand its response when exposed to elevated temperatures. In fire-resistant design for timber construction, the main goal is to ensure that enough structural integrity is maintained during a fire to prevent structure collapse. To study the effect of temperature on bending strength (MOR) and stiffness (MOE) of solid clear wood from Chinese larch, a total of 108 samples with various target temperatures were tested in static bending under same temperatures to ensure the wood temperature to be sustained. The results indicated that exposure to sustained temperatures caused significant degradation of bending strength and stiffness. The degradation of chemical composition of larch wood happened after 170 °C and caused a serious drop in mechanical properties of larch wood after 225 °C. The bending strength and MOE of larch wood behaved negative linear relationship with temperatures before 100 °C.

You might also be interested in these eBooks

View Preview

Info:

Periodical:

Advanced Materials Research (Volumes 557-559)

Pages:

1563-1566

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.557-559.1563

Citation:

Cite this paper

Online since:

July 2012

Authors:

Hai Bin Zhou, Chuan Shuang Hu, Jian Hui Zhou

Keywords:

Bending Strength, Fire-Resistant Structural Design, Larch Wood, Thermal Degradation

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] Mehdi Tajvidi, Babak Mirzaei. Effects of temperature on the mechanical properties of beech (Fagus orientalis Lipsky) and lime (Tilia begonifolia) wood. Wood Material Science and Engineering, 4(3-4):147-153. (2009)

DOI: 10.1080/17480270903428789

Google Scholar

[2] Cramer, S.M., White, R.H. Fire performance issues. In: Wood Engineering in the 21st Century: Research Needs and Goals. Proceedings Workshop at SEI/ASCE Structures Congress XV, Portland, OR, pp.75-86. (1997)

Google Scholar

[3] Young, S.A., Clancy, P. Compression mechanical properties of wood at temperatures simulating fire conditions. Fire Mat. 25(3):83-93. (2001)

DOI: 10.1002/fam.759

Google Scholar

[4] Buchanan, A.H: Structural Design for Fire Safety (John Wiley and Sons, England 2002).

Google Scholar

[5] Green, D.W., Winandy, J.E., Kretschmann, D.E. Mechanical Properties of Wood - Wood as an Engineering Material. General Technical Report FPL-TR 113, U.S. Department of Agriculture, Forest Service, Forest Products Laboratory, Madison, WI. (1999)

Google Scholar

[6] Green, D.W., Evans, J.W. Effect of cyclic long-term temperature exposure on the bending strength of lumber. Wood Fiber Sci. 40(2):288-300. (2008)

Google Scholar

[7] Green, D.W., Evans, J.W. The immediate effect of temperature on the modulus of elasticity of green and dry lumber. Wood Fiber Sci. 40(3):374-383. (2008)

Google Scholar