CS208271B1 - Inorganic binder plate with fibrous micro reinforcement - Google Patents

Abstract

The invention relates to a board based on an inorganic binder with fibrous microreinforcement with a laminated surface. Planar materials based on an inorganic binder and fibrous microreinforcement are, due to their non-flammability, used mainly for the interiors of residential, civil, industrial and agricultural buildings for family houses and recreational buildings. Lamination gives the basic load-bearing boards resistance to external influences - mechanical and weathering, and at the same time increases their utility and aesthetic value.

Description

The invention relates to a board based on an inorganic binder with fibrous microreinforcement and a laminated surface.

Sheet materials based on inorganic binders with fibrous microreinforcement have been produced in the Czechoslovak Socialist Republic for many years. Due to their non-flammability, they are mainly used in construction for the interiors of residential, civil, industrial and agricultural buildings, for family houses and recreational buildings. They are used especially where the flammability of wood-fiber or chipboard boards or their low resistance to increased environmental humidity is a problem.

The above-mentioned advantages of these board materials provide the basis for a further significant increase in their useful properties by surface treatment, which will enable their wide application in all areas of construction. For this reason, from the beginning of their production, the possibility of various types of surface treatment was investigated, which consisted mainly in gluing decorative foils of various types, then in various painting and sealing processes, in various types of laminates, etc. The common drawback of the above-mentioned processes was the insufficient quality of the surface treatment and the complexity of the production process. Under these circumstances, lamination using decorative papers was the most suitable type of surface treatment. However, the drawback of this method was the low cohesion of the surface of the carrier board with the laminate. Therefore, some special processes were used, the task of which was to adjust the cohesion of the surface of the board with the laminate. One of them, still used today even on a production scale, is the saturation - penetration of the surface of the supporting board with phenolic or aminoaldehyde resins. However, these procedures are extremely laborious on an industrial scale and are very demanding on equipment and production space.

The above-mentioned shortcomings are eliminated by a board made on the basis of an inorganic binder and fibrous microreinforcement according to the invention, the essence of which is that the board is provided on the surface with a laminated layer made of backing and decorative paper, the backing paper being saturated with at least 90% by weight of phenol-formaldehyde resin and the decorative paper being saturated with melamine-formaldehyde or urea-melamine-formaldehyde resin.

The board according to the invention combines the advantages of the basic carrier board, i.e. non-flammability and strength, with the properties obtained by lamination, which is resistance to external influences, whether mechanical or moisture, while simultaneously increasing the utility and aesthetic value.

The invention will be explained in more detail below. The basic carrier board, made for example from a cement binder, reinforced with asbestos, or other natural or artificial organic or inorganic fibres, must meet the requirements for successful lamination in terms of its flatness, cohesion, smoothness of surfaces and moisture content. This board is provided on both sides with a backing paper of the appropriate size, which is impregnated with at least 90% by weight of phenol-formaldehyde resin. This degree of saturation is a necessary condition for the desired connection of the backing paper and the carrier board, as well as with the decorative paper which forms the outer surface of the products. The degree of saturation of the decorative

208 271 of paper with melamine formaldehyde or urea formaldehyde resin and ranges in the usual range of 120 to 1^5 1* by weight.

The thus formed pressing assembly is usually molded onto a pressing device, where the resin hardens under the action of pressure and heat, thereby creating the desired surface finish.

Example of a specific implementation:

Pressed honeycomb board of the Bzalit C type, produced from a loose suspension of asbestos, pulp and cement, is dried to 8 to 10 inches, formatted and stored to stabilize the parameters.

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The bulk density of the boards is 1,550 + 100 kg/m, breaking strength min. 0.8 MPa, double-sided tensile strength under bending min. 25 MPa. The surface of the board is ground on a belt grinder so that it is ground over its entire surface. For less demanding applications, this requirement can be waived. The boards prepared in this way are first provided on both sides with a 100 g/m2 base paper with a phenol formaldehyde acrylic coating 128%, and then on the outside with a decorative paper, for example with a 100 g/m2 base paper with a 128% melamine formaldehyde acrylic coating. This pressing set is pressed, using the following molding mode:

Pressing pressure (specific) 2.7 MPa Pressing temperature Pressing cycle Pressing time 10.5 min Heating time 5 min Cooling (to approx. 50 °C) 5.5 min

155°C

15.5 minutes

Pressing must be done symmetrically, otherwise it will lead to surface deformations of the finished board.

The results of the adhesion tests are shown in the following table:

marked and min. max. Ezalite C 130 £1.16l8 MPa 0.9994 MPa 1.2805 MPa Ezalite C 120% 1.1993 MPa 1.0619 MPa 1.4054 MPa Ezalite C without surface edits 0.9682 MPa 0.8120 MPa 1.0619 MPa Lignoflex L 1.2423 MPa 0.7808 MPa 1.5928 MPa

Lignoflex L is the generic name for the underlying decking, where L stands for pressed.

Claims (1)

SUBJECT OF THE INVENTION An inorganic binder based on fibrous micro-reinforcement, characterized in that it is provided with a laminated layer formed from a backing and decorative paper on the surface, the backing paper being saturated with at least 90% by weight of phenol-formaldehyde resin and decomposing paper or melamine-formaldehyde pryekylamine formaldehyde pryekylamine formaldehyde.