Stock material or miscellaneous articles – Web or sheet containing structurally defined element or... – Including interlaminar mechanical fastener
Patent
1980-11-30
1983-03-29
Lusignan, Michael R.
Stock material or miscellaneous articles
Web or sheet containing structurally defined element or...
Including interlaminar mechanical fastener
5230914, 5230916, 5230917, 52515, 52596, 156 622, 156 77, 264122, 264128, 427180, 427203, 427403, 428283, 428288, 428289, 428292, 428334, D03D 300, B05D 136, E04C 100
Patent
active
043784011
DESCRIPTION:
BRIEF SUMMARY
This invention relates to structural board panels formed from cellulistic materials for construction of buildings together with methods of forming the panels.
According to the present invention there is provided a method of forming a structural board panel including depositing a loose mat of overlapping strands of cellulistic material to which a resin adhesive has been applied, compressing and curing the mat to give an open structured block, applying a portland cement mix to penetrate into interstices between the strands and to provide a rendering layer on the block.
Preferably, a further layer of cement mix is applied as a facing layer to the rendering layer.
Desirably, a reinforcement of resinated filamentary material introduced into the cement mix layers.
Suitably, the filamentary material is in the form of nylon strands.
Advantageously, resin is applied to the filamentary material and cured partially to an extent sufficient to achieve an adhesive bond and then introduced between the deposition of the facing layer and the rendering layer such that exothermic reactions in the resin and in the cement mix mutually assist.
The invention also includes structural board panels formed by the foregoing methods.
In one embodiment of the invention, the panels are formed by depositing a loose mat of overlapping short strands of bagasse which have been shredded in a conventional manner and to which a resin adhesive has been applied, compressing and curing the mat to give an open structured block having a density of between 160 and 400 kg/m.sup.3, preferably 240 kg/m.sup.3 and surface aperture of between 25 and 75%. A screed of mortar of portland cement and sand, approximately in the ratio 1:3, is then applied to one face of the block to penetrate interstices between the strands to a depth of several strands, i.e. between 5 and 25 mm, preferably 15 mm. Next there is provided a rendering of mortar on the face of a thickness of between 3 and 15 mm, preferably less than 5 mm, on to which is laid, as a reinforcement, a loose net of three strand nylon filaments at approximately 15 mm. rectangular pitching. Finally, a facing of mortar is applied to a thickness of between 3 and 15 mm, preferably less than 6 mm.
Conveniently the thickness of the rendering and the facing is controlled by forming the mat oversize in length and breadth and consecutively clamping first and second steel strip formers or templates of the appropriate thickness respectively in register with the edge portions of the mat and the second former in register with the first after positioning the loose net of nylon on the surface of the rendering layer of mortar. Following setting of the rendering and facing the formers are removed and the panels cut down to size.
Upon test upon a 100 mm thick sample, satisfactory results were obtained for fire resistance, a `U` value of between 0.64 and 0.66 was obtained and the sample was dimensionally stable against theremal or moisture movement.
Prior to placement on the rendering layer of mortar, the loose net of nylon filaments is coated with resin and then part cured to an advanced stage of polymerisation, to avoid water migration and effects arising from the composition of the cement when deposited on the rendering and impregnated with the cement, sand and water mix of the facing layer. A water soluble, phenol free resorcinol formaldehyde novalac resin cross-linked with formaldehyde or paraform is used and, since the setting reaction of both the cement and the resin are exothermic, with the resin having a faster reaction time, the two reactions are arranged to mutually assist each other to obtain a satisfactory bonding and a faster stabilisation time compared with the corresponding individual stabilisation times. The water content of the cement and resin mixtures is determined by the need to avoid over dilution of the resin, which would weaken adhesion between the resin and the filaments, and restricting the rates of exothermal heat release in order to achieve high strength properties. A fungicide may be added witho
REFERENCES:
patent: 3384522 (1968-05-01), Rubenstein
patent: 3843431 (1974-10-01), Dostalik
patent: 3878278 (1975-04-01), Miller et al.
patent: 4113913 (1978-09-01), Smiley
patent: 4129637 (1978-12-01), Kennedy
Borfglace Limited
Lusignan Michael R.
Page Thurman K.
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