DE3411267C1 - Fibre-reinforced cement slab and process for the production thereof - Google Patents

Abstract

In a fibre-reinforced cement slab with a thickness of 3-20 mm which is mechanically deformed in the wet, unset state, the slab is provided with a relief-like surface and contours with sharp-edged transitions with low compaction of the slab structure in this region. <IMAGE>

Description

In this way, plates can be made that are deceptive similar impression z. B. handcrafted roofing slate, roof tiles, brickwork or roof tiles - to name just a few examples - convey to the viewer. It is thus possible to use the building or structural parts efficiently and economically clad with light, thin-walled and as large-format panels as possible and The materials already used on the building can be freely chosen in terms of shape and color adapt. When using a fiber cement board according to the invention with a Relief in the form of brickwork can, for example, be the outlines above the clinker brick is coated in brick color, while the recessed joints retain the natural color of the fiber cement board, so that the impression is deceptively similar a clinker wall is created. The contours can run in any direction and also cross each other. The relief-like deformations can be at a 3 mm thick Plate up to twice its thickness. Through trials it was found that the smallest possible fiber cement board of 3 mm on a Total thickness of about 9 mm can be deformed without being in the sharp-edged contour area the fiber material loses its alignment or unsightly cracks appear. Yet it is possible with the fiber cement board according to the invention, deformations up to to make the limit of the cracking capacity of the fibers.

According to the particularly strong possible reliefs the relief-like deformations on the top and bottom of the plate may be unequal. This results solely from the fact that in the area of the sharp-edged contours a compression or a thinning of the panel thickness takes place.

Next a particularly expedient embodiment of the invention can the plate form the top layer of an at least three-layer composite body; in this case the lower layer of the laminate is preferably flat.

The fiber cement board according to the invention can be used as a commercially available large board be designed, so z. B. have dimensions of 1 x 2 m. The laying work z. B. as roof panels is opposite a pantile roof or a roof tile roof significantly reduced, but the appearance is largely retained.

The invention is also based on the object of a method to create a fiber cement board, with a flat fiber cement board in the moist, not set, provided with a water cement factor of at least 0.3 State is mechanically deformed, after which it hardens. So it essentially becomes based on the so-called Hatschek manufacturing process.

While so far, however, with deformations of the Hatschek process produced panels, pressures and thus unequal panel thicknesses can be avoided should, according to the invention, the procedure is that the deformation between as a die and die formed printing plates and a pressure of at most 100 kp / cm2, preferably at most 50 kp / cm2, is used.

Surprisingly, it has been shown that when using the invention Method of fiber cement board contours of a previously unattained depth itself can be embossed with sharply defined transitions without affecting their structure destroy and create annoying cracks on their surface.

It is particularly preferred that one of the printing plates with the negative relief hard and the other platen is soft.

A hard die has to be paired with a soft male die be or vice versa. This has the advantage that by means of this method Fiber cement can be processed, which in the so-called.

Hatschek method was generated. This known method allows a particularly economical production, combined with a controlled orientation of fibers and highest strength.

Appropriately, a water cement factor of 0.3-0.6 is preferred 0.4-0.6 applied, i.e. H.

the fiber cement is kept a little more humid than usual, where the water cement factor can even be below 0.3.

The shaping can also be done using plasticizing additives, organic and inorganic substances. Otherwise the raw material composition The fiber cement panels are chosen as this is based on the technical and qualitative aspects Reasons is required.

The one made using the method of the invention Fiber cement board is therefore not only on its visible side, but in a similar way Way embossed on its back by contours, with more sharp edges at the points Transitions the plate structure is compacted (so that the plate thickness is also reduced) and so optically or in terms of resilience disadvantageous deformation cracks on the Surface to be avoided.

For the board thickness or thickness a minimum of 3 mm is required assumed as the lower limit and set an upper limit of about 12-20 mm, whereby the last specified dimension for economic reasons - especially technical Due to expense - should hardly come into play. It is obvious that with increasing Plate thickness or thickness the forces required for deformation increase.

The above-mentioned possibility of using the fiber cement board z. B. as an upper class to use a three-layer board, with a heat insulating core provided can be used, complements the possibility of using the relief fiber cement board, something like in the direction of an insulation board. The multilayer board also offers Even with a very thin-walled fiber cement board, great rigidity and strength and ensures mechanical strength; also in this case are of the material strength The demands on the fiber cement board are not as high as when they are used alone should be used so that strength-reducing disturbances in the structure of the plate can rather be accepted in the course of the deformation process; Expressed differently, one can approach closer to the crack limit of the fiber cement material during the deformation.

In the drawing are two exemplary embodiments of the invention shown. It shows F i g. 1 shows an oblique view of an embodiment as a single plate and F i g. 2 shows an oblique view of a modified embodiment as a layered body.

A section from a fiber cement board 1 in a commercial size from Z. B. 1 x 2 m is shown in Fig. 1 in an oblique view, the relief 2 was made arbitrarily. As already mentioned above, can of course the relief should be regular, e.g. B. in the form of roof tiles or in the form of a clinker brickwork with appropriate grouting, whereby in the first case the surface the tile is colored accordingly, but in the second case only the clinker surfaces a brick color, while the recessed joints the original color of the fiber cement material.

The bottom 3 of the z. B. 5 mm thick fiber cement board retains usually their original color.

With strong contours or transitions z. B. takes place at point 4 a not shown dilution and compression of the material during treatment with a female part with negative relief and a soft male part. Still they tear natural or man-made fibers also do not exist at this point and remain in theirs oriented location. Although the underside 3 of the fiber cement board is very similar Relief like the top has, the top is because of the soft Provide the patrix with somewhat "softer" transitions.

In the case of the in FIG. 2 is a 3 mm thick embodiment Fiber cement board provided on its underside 11 with a rigid foam board 12, which in turn are connected with their underside 13 to any flat plate 14 is. This flat plate can itself be made of fiber cement material in a thickness of 2-3 mm exist; however, other material, e.g. B. cardboard, glass fleece, use Find.

However, the three-tier structure is required to achieve the desired Rigidity, resilience, strength and To achieve default; this would not be possible without underlayer 14.

The fiber cement board 10 has a strong relief; she is 3 mm thick. The upper boundary surface and the lower boundary surface can in the present case up to 9 mm apart scin.

In this case, too, the relief has been made so that z. B. at the transition points 14 a thinning and compression of the fiber cement material he follows.

To make the three-layer board, the two outer Plates fixed in a spacer and then the space in the usual Foamed wise.

Claims (9)

Claims: 1. Self-supporting fiber cement board in one thickness from 3 to 20 mm, which is mechanically deformed in the moist, unbound state, d a d u r c h characterized that the plate with a relief-like surface and contours with sharp-edged transitions with low compression of the plate structure is provided in this area. 2. fiber cement board according to claim 1, characterized in that the relief-like deformations with a 3 mm thick plate up to this double of their strength. 3. fiber cement board according to claim 1 or 2, characterized in that that the relief-like deformations on the top and bottom of the plate are unequal are. 4. fiber cement board according to one of claims 1 to 3, characterized in that that the plate forms the top layer of an at least three-layer composite body. 5. fiber cement board according to claim 4, characterized in that the sub-layer of the laminate is flat. 6. fiber cement board according to one of claims 1 to 5, characterized in that that the plate is designed as a commercially available large board. 7. A method for producing a fiber cement board according to one of the preceding claims, wherein a flat fiber cement board in damp, with a Water cement factor of at least 0.3 provided, not set mechanically is deformed, after which it hardens, characterized in that the deformation made between formed as a patrix and as a matrix printing plates and a pressure of at most 100 kp / cm2, preferably at most 50 kp / cm2, is applied will. 8. The method according to claim 7, characterized in that one of the The printing plate with the negative relief is hard and the other printing plate is soft. 9. The method according to claim 7 or 8, characterized in that a water cement factor of 0.3-0.5, preferably 0.4-0.5, is used. The invention relates to a self-supporting fiber cement board in a thickness of 3 - 20 mm, which is mechanically dampened and not set is deformed. Fiber cement panels are usually used as exterior cladding, Roof coverings and generally used wherever relatively lightweight Plates should be used as waterproof weather protection. Manufactured according to the so-called Hatschek process (sieve cylinder process) Fiber cement panels are mechanically dampened and not yet set deformed and placed on a mold until it hardens. The untied one Fiber cement is only exposed to low forces. in particular, no pressings may be made. So it will Deformed as gently as possible to avoid unavoidable tension and compression to be kept low. so that tearing of the material at the Surface is prevented. Any sharp-edged transitions must be avoided so that one can start with larger ones Radien works. The original strength of the material remains with this process unchanged, which also applies to the structure of the material inside the fiber cement board is applicable. The surfaces of these fiber cement slabs remain more or less smooth; they are only changed insignificantly in the course of the deformation process. According to another known method, the above fiber cement panels produced immediately after their production in as yet unbound Condition subjected to full-surface pressing under high pressures (200-300 kp / cm2), to compact the structure and thus to increase the strength of the plate or, if necessary to achieve other properties, e.g. B. the resistance to frost effects. The thickness of the material is reduced evenly. There is also known a manufacturing technique called. Magnani process in which profiled panels with different Wall thickness can be generated; however, even in this case must be sharp-edged Crossings are avoided and the surface must remain smooth. In this manufacturing process a fiber cement slurry is rolled onto a form. The invention is based on the object of a fiber board - be it with natural or with artificial fibers - to create their surface is designed so that it gives the impression of being laid next to or on top of one another, if necessary jointed small building materials, such as roof panels, bricks o. the like. More mediated; However, it should also be a result of particularly strong refraction or shadow formation evoked. strongly profiled plate can be created. The object is achieved in that, according to the invention, the plate with a relief-like surface and contours with sharp-edged transitions below low compression of the plate structure is provided in this area.