An experimental and numerical study of moisture transport and moisture-induced strain in fast-grown Sitka spruce
Título del documento: An experimental and numerical study of moisture transport and moisture-induced strain in fast-grown Sitka spruce
Revista: Maderas : ciencia y tecnología
Base de datos:
Número de sistema: 000534533
ISSN: 0718-221X
Autors: 1
2
3
1
Institucions: 1National University of Ireland Galway College of Engineering & Informatics & Ryan Institute, Galway. Ireland
2University of Wollongong in Dubai Faculty of Engineering and Information Sciences, Dubai. UAE
3Queen’s University Belfast School of Planning Architecture and Civil Engineering, Belfast. UK
Any:
Volum: 21
Número: 1
Paginació: 45-64
País: Chile
Idioma: Inglés
Resumen en inglés The use of fast-grown timber in the manufacture of engineered wood products is increasing; however, the fast growth rate results in a low-density timber that is susceptible to significant swelling and shrinkage deformations under changing moisture content. The current study focuses on the characterisation of the moisture diffusion and swelling/shrinkage of fast-grown Sitka spruce and the prediction of the moisture-induced strain development in Sitka spruce glulam beams under variable humidity cycles. Moisture content evolution and swelling/shrinkage coefficients were measured and the longitudinal swelling/shrinkage was found to be significantly greater than for slow-grown timber. Sitka spruce glued-laminated beams were subjected to controlled relative humidity cycling for 52 weeks and the moisture distribution and moisture-induced strains were measured continuously. Coupled moisture-displacement numerical models, incorporating the experimentally measured material parameters were developed. The effect of the glue-line was found to have an insignificant effect on moisture transport, however, the material orientation greatly influenced the predicted moisture-induced strain. Accurately mapping the material orientation produced significantly better predictions of the experimental results over the 52-week period.
Keyword: Adsorption,
Desorption,
Finite element analysis,
Glued laminated timber,
Long-term moisture transport,
Moisture diffusion.
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