Abstract
The use of wood fibres as reinforcement for a structural composite material has been investigated. Although wood fibres have relatively poor mechanical properties compared with synthetic fibres, they have the advantages of low density, low cost and low energy demand during manufacture. A number of possible matrix materials were considered and Portland cement was chosen for further investigation. An examination was made of the effect of the pulping technique used to prepare the fibre on the strength of the composite and on the stability of the wood fibres in the cement matrix. A chemically pretreated high-temperature thermomechanical pulp and a pulp produced by the kraft process were selected for further study. The effect of the water-cement ratio of the matrix and the weight of fibre in the composite on the strength of the composite and the rate of increase in strength and fracture energy of composite are reported for composites containing these pulps. The results indicate that the kraft pulp is suitable for applications where slurry dewatering can be employed during the forming operation and that the thermomechanical pulp is more suited to applications where low water-cement ratio slurry is used.
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References
J. F. Ryder, “Applications of fibre cement”, RILEM Symposium (The Construction Press, Lancaster, 1975).
A. K. Green and A. M. Pye, Fulmer Research Institute Special Report no. 5 (1976).
A. W. Mckenzie, Appita 32 (1978) 207.
P. Mauranen, “Thermomechanical Pulp on Stone Groundwood”, International Mechanical Pulping Conference, Helsinki (1977).
“Material Needs and the Environment Today and Tomorrow”, Final Report of the National Commission of Materials Policy (Finnish Paper Engineers Ass. 1973) Vol. 3.
A. J. Majumdar, “Properties of fibre cement composites”, RILEM Symposium (The Construction Press, Lancaster, 1975).
E. Bolza, “Timber and Health”, CSIRO Division of Building Research (1976).
Unpublished data, CSIRO Division of Forest Products.
E. D. Acheson, R. H. Cowdell, E. Hadfield and R. G. Macbeth, Brit. Med. J. 2 (1968) 587.
A. E. Chittenden, “Wood and Cement — Past and Future”, Report of the Seventh World Forestry Congress (1972).
E. M. Huffaker, Forest Products. J. July (1962) 298.
T. W. Parker, Chem. Ind. 27 September (1947) 693.
H. Krenchel, Structural Research Laboratory Technical University of Denmark Internal Report no. 1 18 (1972).
L. Nilsson, Swedish Council for Building Research Document D 14 (1975).
J. J. Zonsveld, “Properties and testing of concrete containing fibres other than steel”, RILEM Symposium (The Construction Press, Lancaster, 1975).
Unpublished data, CSIRO Division of Chemical Technology.
Australia Patent no. 13917/76, “Cotton-cement Articles” (1976).
“Puncture test for Container Board”. TAPPI Standard T803M-50 (Tech. Assoc. Pulp and Paper Industry, New York, 1950).
G. W. Davies, M. D. Campbell and R. S. P. Coutts, unpublished work.
J. E. Gordon and G. Jeronimides, Nature 252 (1974) 116.
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Campbell, M.D., Coutts, R.S.P. Wood fibre-reinforced cement composites. J Mater Sci 15, 1962–1970 (1980). https://doi.org/10.1007/BF00550621
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DOI: https://doi.org/10.1007/BF00550621