DE1049285B - Method for Versrar effect of molded and pressed parts, especially plasterboard panels - Google Patents

Description

It is known to produce building boards or other fo ^ m and cast parts from plaster of paris. It is also known in the production of moldings of all kinds, the plaster of paris for hardening and increasing the strength numerous Add funds in the form of chemicals, glues, etc. Furthermore, the use of fibrous Fabrics such as textile fibers, vegetable fibers, pulped fibrous paper, and paper stuffs all Art and the like, known to reinforce such molded parts. But all of these additives are satisfactory in their effect and their behavior, be it that their intrinsic strength is too low or that they perish or are flammable.

There are also non-perishable and non-flammable additives such as asbestos and fiberglass in plaster of paris mixed in. However, these substances can only be mixed poorly with the plaster of paris. This one Fibers are loosely added to the plaster of paris, creating nests with accumulations of reinforcing material next to places without reinforcement additives. The non-uniformity of these additives affects the reinforcing Effect of the fiber additives very much. The glass fiber also has the disadvantage that it is a single fiber is not sufficiently elastic and may break and so · the reinforcing effect is partially or lose it entirely. It has also been found that under mechanical stress a plasterboard reinforced with loose glass fibers, for example with bending loads, the individual Dissolve glass fibers from their adhesion to the plaster of paris, presumably as a result of their smooth surface, without having fulfilled their reinforcing task. The fracture surface of such shaped bodies then shows bristle-like 10 to 20 mm long glass fibers protruding from the fracture surface. ■

It is also known to use fine spitfinables Glass fibers in the form of bundles or strands for reinforcing plaster of paris. These fiber optic bundles are means of water-soluble binders linked together; however, they either dissolve when sufficient Dry mix or in the plaster mix itself again in single threads, which then in smoother and stretched form ki of the gypsum mass are distributed.

Experiments have now shown that this known method also has considerable disadvantages. The spinnable glass fiber is very thin and elastic, and as a result of the manufacturing process it has a needle-shaped elongated shape and a smooth surface. If a product that has been reinforced with these spinnable glass fibers evenly distributed in the mixture is exposed to internal (heat - stretching, etc.) and external forces (pressure - bending, etc.), a more or less large change in shape always occurs. This change in shape ver-method for reinforcing molded and pressed parts, in particular
Building panels made of plaster

Applicant:

ίο Frisalit-Werke G.m.b.H.,

Satteldorf (Württ.)

causes elongation and stretching of the fibers in the tension area. You will through it slimmer and, as a result, become detached from the surrounding plaster of paris. The liability of the individual Fibers on the enveloping material are eliminated and the reinforcing effect is reduced. In addition, due to the manufacturing process, the fibers are elongated in the shape of a needle for use, so that they have no other than the adhesion, which is due to the smooth surface of the single fiber Is optimum, find no additional anchoring in the reinforcing material. Also shows here the fracture surface of a reinforced molded part has a bristle-like appearance with a length of 10 to 15 mm and longer bristle ends.

By the invention, a method for the reinforcement of gypsum moldings' and -preßteilen be created by the addition of glass fibers can be produced through which moldings or casting compounds which are distinguished by particularly high strength, in particular bending resistance, characterized and in which a mechanical strength-reducing Detachment of individual glass fibers is almost avoided, so that the strength properties of the molded part remain the same even with greater mechanical stress.

The inventive method for reinforcing plaster moldings and pressed parts, in which Glass fibers are added to the gypsum in the form of self-contained bundles the well-known in the fact that the glass fiber bundles connected with a non-water-soluble binder are spliced up like strands or brushes at the ends of the bundles.

809 730/365

The bundled or layered glass fibers are thereby by a non-dissolving in water Binders connected or glued together. Preferably they are to a length of 10 to 50 mm cut in such a way that the cutting causes them to splay out like a brush at the ends. These thin fiberglass bundles impaled like strands at the ends are, as usual, in the dry or Wet mixing process added to the plaster of paris and remain in the finished plaster of paris because they are not in Dissolve single threads, keep them unchanged in the form of bundles spliced open at the ends. The spliced ones Since they are also filled with plaster of paris, ends work like toggles or anchors additional anchoring of the bundle in the plaster of paris cause. The bundles can consist of individual fibers of the same or different strengths. Since the bundles are retained in the plaster of paris, the strength of the individual fibers is insignificant. It can spinnable glass fibers or so-called glass yarns are used for the inventive use up to fibers of considerably larger diameter. The weight fraction of the tightly bundled glass fibers is 0.02 to 3% and more of the weight of the plaster of paris.

Since the bundles and strands have good inherent strength with sufficient elasticity, can they are also added to pasty to earth-moist gypsum mixtures, which is the case with the previously known Process with glass fibers was not possible and led to the formation of lumps.

Casting compounds and molded parts produced by the process according to the invention result in products which are characterized by particularly high strength in every load direction and by the other properties an indestructible, non-flammable fiber. The high flexural strength is striking, which is much larger than when using soluble, spinnable glass fibers or Individual fibers according to known processes or when using conventional additives, as introduced in the introduction described. The fibers take in their present form as a result of their special anchoring full proportion of the reinforcement, so that it is possible with the method according to the invention, plaster of paris moldings in a thickness of 0.2 cm with a previously unattained elasticity. Also the Manufacture of large-area panels with an area of over 2 square meters and a thickness of 10 to 15 mm

ίο more can be produced and processed without that breakage or damage to the molded body is to be feared. Also a weakening of the Strength due to internal tensions after the body has dried is hardly noticed any more. To the process according to the invention can now produce perfect moldings down to the smallest thicknesses can be produced with any surface.

Claims (3)

Claims: 20 1. A method for reinforcing plaster moldings and pressed parts, in which the plaster of paris Glass fibers are added in the form of self-contained bundles, characterized in that the glass fiber bundles connected with a non-water-soluble binder at the ends of the Bundles are spliced up like strands or brushes. 2. The method according to claim 1, characterized in that the bundles and layers Fibers of the same or different strengths exist. 3. The method according to claim 1 or 2, characterized in that the fiber bundles 10 to 70 mm and more, preferably 15 to 50 mm, long and the fiber weight 0.02 to 3%, preferably 0.02 to 0.06% of the weight of the plaster of paris. Considered publications:
German patent specification No. 934 395. 1 sheet of drawings