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International Wood Products Journal Volume 4, 2013 - Issue 3
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Original Article

Water vapour sorption behaviour of thermally modified wood

C A S HillForest Products Research InstituteJoint Research Institute for Civil and Environmental Engineering, School of Engineering and the Built Environment, Edinburgh Napier University, 10 Colinton Road, Edinburgh EH10 5DT, UKCorrespondence[email protected]
,
J RamsayForest Products Research InstituteJoint Research Institute for Civil and Environmental Engineering, School of Engineering and the Built Environment, Edinburgh Napier University, 10 Colinton Road, Edinburgh EH10 5DT, UK
,
K LaineDepartment of Forest Products TechnologySchool of Chemical Technology, Aalto University, Espoo, Finland
,
L RautkariDepartment of Forest Products TechnologySchool of Chemical Technology, Aalto University, Espoo, Finland
&
M HughesDepartment of Forest Products TechnologySchool of Chemical Technology, Aalto University, Espoo, Finland
Pages 191-196 | Received 20 Jan 2013, Accepted 31 Mar 2013, Published online: 18 Nov 2013

References

  • Driemeier C, Mendes F, Oliveira M. 2012. Dynamic vapour sorption and thermoporometry to probe water in celluloses. Cellulose 19(4): 1051.
  • Hill CAS. 2006. Wood modification: chemical, thermal and other processes. Chichester: John Wiley and Sons.
  • Hill CAS, Keating B, Jalaludin Z, Mahrdt E. 2012a. A rheological description of the water vapour sorption kinetics behaviour of wood invoking a model using a canonical assembly of Kelvin-Voigt elements and a possible link with sorption hysteresis. Holzforschung 66(1): 35–47.
  • Hill CAS, Ramsay J, Keating B, Laine K, Tautkai L, Hughes M, Constant B. 2012b. The water vapour sorption properties of thermally modified and densified wood. J. Mater. Sci. 47(7): 3191–3197.
  • Hill CAS, Moore J, Jalaludin Z, Leveneu M, Mahrdt E. 2011. The influence of earlywood/latewood and ring position upon the water vapour sorption properties of Sitka spruce. Int. Wood Prod. J. 2(1): 12–19.
  • Hill CAS, Norton A, Newman G. 2009. The water vapor sorption behavior of natural fibers. J. Appl. Polym. Sci. 112(3): 1524–1537.
  • Hill CAS, Norton A, Newman G. 2010a. Analysis of the water vapour sorption behaviour of Sitka spruce (Picea sitchensis (Bongard) Carr.) based on the parallel exponential kinetics model. Holzforschung. 64(4): 469–473.
  • Hill CAS, Norton A, Newman G. 2010b. The water vapour sorption properties of Sitka spruce determined using a dynamic vapour sorption apparatus. Wood Sci. Technol. 44(3): 497–514.
  • Hill CAS, Norton A, Newman G. 2010c. The water vapor sorption behaviour of flax fibers – analysis using the parallel exponential kinetics model and determination of the activation energies of sorption. J. Appl. Polym. Sci. 116(4): 2166–2173.
  • Hill CAS, Xie Y. 2011. The dynamic water vapour sorption properties of natural fibres and viscoelastic behaviour of the cell wall – is there a link between sorption kinetics and hysteresis? J. Mater. Sci. 46(11): 3738–3748.
  • Jalaludin Z, Hill CAS, Curling SF, Samsi HW, Hussein H. 2010a. The kinetics of water vapour sorption: analysis using the parallel exponential kinetics model on six Malaysian tropical hardwoods. J. Trop. Forest Sci. 22(2): 107–117.
  • Jalaludin Z, Hill CAS, Curling SF, Xie Y, Samsi HW, Hussein H. 2010b. Analysis of the water vapour sorption isotherms of thermally modified acacia and sesendok. Wood Mater. Sci. Eng. 5(3&4): 194–203.
  • Jalaludin Z, Hill CAS, Samsi HW, Hussein H, Xie Y. 2010c. The kinetics of water vapour sorption: analysis using the parallel exponential kinetics model on Acacia (Acacia mangium) and Sesendok (Endospermum malaccense) oleo-thermal modified wood. Holzforschung 64(6): 763–770.
  • Xie Y, Hill CAS, Jalaludin Z, Curling SF, Ananjiwala RD, Norton A, Newman G. 2010a. The dynamic water vapour sorption behaviour of natural fibres and kinetic analysis using the parallel exponential kinetics model. J. Mater. Sci. 46(2): 479–489.
  • Xie Y, Hill CAS, Xiao Z, Jalaludin Z, Militz H, Mai C. 2010b. The water vapour sorption kinetics of wood modified with glutaraldehyde. J. Appl. Polym. Sci. 117(3): 1674–1682.
  • Xie Y, Hill CAS, Jalaludin Z, Sun D. 2011a. The water vapour sorption behaviour of three celluloses: analysis using parallel exponential kinetics and interpretation using the Kelvin-Voigt viscoelastic model. Cellulose 18(3): 517–530.
  • Xie Y, Hill CAS, Xiao Z, Mai C, Militz H. 2011b. Dynamic water vapour sorption properties of wood treated with glutaraldehyde. Wood Sci. Technol. 45(1): 49–61.

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