DE2444460A1 - Reinforcing structure for plastic resin bonded laminae - is pref circular, elliptical or polyhedral in cross section - Google Patents

Abstract

The structure comprises many rigid members, pref. of circular, elliptical, polyhedral cross-section, bonded endwise to a flexible porous backing sheet in a regular geometric pattern, pref. all included in the same direction relative to the backing sheet, the side or sides of each member being inclined at an angle other than 90 degrees, to the plane of the backing sheet. The composite lamina structure formed, e.g., a glass reinforced bonded laminae, is used in the construction of boat hulls, as panelling for road or railway vehicles or aircraft and as building units such as partitioning and cladding.

Description

Reinforcement or reinforcement part for resin-impregnated layers The invention relates to a reinforcement or a reinforcement part for resin-impregnated Layers.

There are elements for reinforcing resin-soaked layers, for example of glass-reinforced plastic layers, which are called GRP4khichten (English Abbreviation) are known. The resulting composite structures are sandwich-like constructed and have a rigid or essentially rigid cellular structure, which between resin-soaked fiberglass mats. application areas are the construction of boat hulls, the cladding of road or rail vehicles or aircraft and the manufacture of components such as partitions and wall paneling. With such elements, the connection and then the service life the composite structure largely depends on the strength and mutual Compatibility between the reinforcement and the glass fiber reinforced plastic layer influenced.

So far, known reinforcements or reinforcement parts have not been used always as satisfactory in connection with glass fiber reinforced plastic layers proven. For example, certain types of cellular, sandwich-like material partially fill with water when used in conjunction with fiberglass-reinforced Plastic layers are used, for example, in boat building. In addition, you can Loosen the joints if the layers and the sandwich material are different Have thermal expansion coefficients0 Together with the ingress of water it can this may lead to the layer plate becoming detached.

The invention is based on the object of a reinforcement or a To create reinforcement part, with which the above-mentioned disadvantages essentially be avoided.

According to the invention is a reinforcement or a reinforcement part for resin-impregnated layers with a plurality of rigid elements with their end faces Glued to a flexible, porous base layer in a regular geometric pattern are characterized in that at least one side surface of each rigid element inclined at an angle other than 900 with respect to the plane of the base layer is.

The cross section of the rigid elements can, for example, be round or elliptical or polyhedral, being about three, four, five. D or twelve pages owns.

There is also the possibility of the cross-section being completely irregular to train. Special cross-sectional shapes are square, diamond-shaped, triangular, rectangular or octagonal. Hexagonal cross-sections are preferably used.

The angular deviation of the side or sides (if it is a polyhedral cross-sectional shape) opposite the lateral axis can be in medium-sized Limits can be varied. An angle, for example, has proven to be particularly suitable of about 1000 proven.

The height of the rigid elements can exceed the cross-section of the structure be constant or vary in order to create a corrugated or undulating surface contour to surrender.

The rigid elements can be fully formed or a central one Have a cavity, the depth of which can go up to the level of the rigid elements. In the latter Cases are the rigid elements as rings with a central opening educated. The wall thickness is preferably equal to the distance between the rigid elements, this value being advantageously kept constant. The wall thickness can also vary. For example, a polyhedral element have a recess or depression in one or more of its walls. as A rigid element with the shape and appearance of a hollow has proven particularly advantageous Hexagon proved.

Preferred materials for making the rigid members are Wood, metal, paper, plaster of paris, cement, clay, polyurethane or polyvinyl chloride foams, To name rubber and especially resin, for example cured polyester or Epoxy resin with a light filler material O The flexible, porous base layer For example, it can be made of a thin, flexible and woven or non-woven Consist of textile material. Suitable materials are accordingly woven or non-woven fiberglass and mesh made of polyester resin or nylon. The opening width of the meshes of a woven material can vary in size sein0 A value that has proven to be suitable is that of normal, net-shaped household curtains is equivalent to. For reinforced structures that are subjected to high loads, for example composite elements made of cement or resin mortar, are used one preferably woven, welded or expanded metal, for example steel, in mesh form.

The rigid elements can be used with the base layer of resin, possibly using the same Resin, which was used to manufacture the rigid elements. Accordingly, lets the manufacture of the rigid elements using at least one mold, as it will be explained in more detail below, as a common work step with perform the gluing on the base layer.

For the geometric pattern of the rigid elements on the base layer there are a number of different variants. So the individual can stare Elements of a common base layer coincide with one another or one another differ. The rigid elements can also be arranged on the base layer in such a way that their position relative to the latter is identical, d. that is, that everyone is rigid Element with its inclined surface in the same direction. Apart from this consists, while maintaining the geometric pattern of the rigid elements, the possibility that their relative position is not identical, d. i.e. that some of the Elements differ in their direction of inclination from that of the other elements. Under Use of the preferred embodiment of the rigid elements, these as Hollow hexagons are formed, the finished reinforcement structure has the appearance a natural honeycomb.

Further advantages and features of the invention emerge from the following Description of a preferred embodiment in connection with the enclosed Drawing. The drawing shows in: Fig. 1 a plan view of the reinforcement structure; FIG. 2 is a side view in section along the line A-A in FIG. 1.

The reinforcement structure comprises rigid elements 1 resting on a base layer 2 are glued on.

The reinforcement structure according to the invention can be of any suitable type Way to be made. For example, you can have a single rigid element from a suitable material, such as wood, metal, plaster, cement, clay, synthetic resin, Form paper or cardboard and take a shape from this original that is about made of plaster of paris, cement, clay, resin or rubber0 A preferred material for manufacture the shape is silicone rubber. Using this form, there will be a sufficient number made from replicas of the original rigid element, for example using polyester or epoxy resin.

These images are then placed on a suitable flat surface in that geometric pattern is set up which corresponds to the desired pattern of the finished reinforcement corresponds. Then one takes one from this arrangement Form from which in the further to the production of the finished Reinforcement serves. This mold is filled with resin and the base layer is applied the area of the filled mold, so that the excess resin from the base layer is absorbed0 After the resin has hardened, the complete structure, consisting of from the rigid elements and the base layer firmly connected to them be lifted out of the shape. This results in a rigid or semi-rigid reinforcement.

If you let a roller with fine spikes act on the base layer, so the rigidity can be decreased, so that the reinforcement for simplification the storage and the transport rolls0 Also one can thereby the stiffness reduce by folding the material between the rows of rigid elements.

lt0t. The rigid elements partially detach from the base layer, When placed on a wet GRP layer, the resin can then enter the space between penetrate the rigid elements.

It should be noted that the structure according to the invention is diverse Can be used to reinforce resin-soaked layers. One of these Possible applications is in the manufacture of boat hulls using of GRP layers. This special application is to be explained in more detail below will.

The GRP layer preferably consists of a piece of strand mat and is applied to a gel coating in a conventional manner. The shift should be placed in an indentation of the usual size, with all overlaps carefully cut off or plugged in.

The laying on or production of the mat corresponds to normal practice, using a roll of lambswool to spread the polyester resin. Then a log roll is used, also in agreement with common practice, the polyester resin evenly into the glass mat bring in and remove excess air.

At this point comes a portion of the reinforcement structure of the present invention of suitable size for the application. Its training is based on the desired sandwich structure adapted, and it is tailored to the curvature of the corresponding part of the boat comes as close as possible. As mentioned, it is important to have the rigidity of the structure has been initially diminished by the action of a role-with fine needles on the mesh-shaped base layer to achieve a uniform Perforation.

The material now has processing properties that are similar to those of one Chain network are similar, and therefore everyone will readily insult themselves Adjust the shape of double bends.

The reinforcement structure is now placed on the wet GRP layer, in such a way that the mesh-shaped base layer lies on top of this layer comes.

If the position is correct, one uses a wooden roll, such as one Paper hanger roll. This role is carried out over the surface of the rigid elements of the Stiffening performed, with the application of considerable pressure. the The effect of this operation is to firmly place the reinforcement in the wet Press the GRP layer into it.

Resin penetrates through the small holes in the base layer in the shape of a mushroom, previously generated by the needle roller, and accumulates into small ones Puddles within the recesses of the rigid elements and between these elements0 It is mentioned again that the rigid elements have at least one side surface lie inclined. It follows that that penetrates through the base layer Resin gets into such cavities and hardens there that are half a dovetail shape are and a natural, inclined lock of approximately 800 to the Form layer of layer.

The manufacturing process is now continued until the hull is so far is finished that it consists of a GRP layer and a sandwich core. To this At that time, the interior of the hull looks like a honeycomb over the entire surface the end.

So that is the goal, namely a complete sandwich structure Producing G9P layers, half achieved. All that remains is to hang up a skin made of another piece of strand mat made of GRP layer on the upper one Area of the rigid elements. This is done as follows: You prepare an im high levels of thixotropic mass made of catalyzed polyester resin. This mass is applied to the surface of the structure, which is now firmly cured into the Resin of the first GRP layer is embedded. As a tool for this operation use a common size brush that is not made with the thixotropic resin should be soaked but only have absorbed as much resin as it should have Working with semi-dry brushes is common. The brush gets over slightly the surface of the structure is guided in a direction that corresponds to the direction of inclination which runs counter to rigid elements. The effect is the same as when you stroke it of an animal skin against the grain, resulting in a curling effect.

Comparing the slope of the rigid elements of the reinforcement with the natural direction of growth of an animal's fur, you have to stare the brush over it Elements run in the same direction as you do when you have an animal skin want to ripple up The goal of this process is to make the thixotropic Apply resin thinly on the upper surface of the rigid elements while doing so to create the possibility that a small amount of resin runs over the edge and something got into the undercut of the sloping wall. That the resin in To be highly thixotropic, it follows that a resin of low viscosity flows more easily and runs down the rigid elements. The second GRP layer and, if desired, a further sequence of layers is now used in the usual manner applied, as also described in connection with the first GRP layer became.

It should be noted that in other applications such as in the manufacture of cladding and partitions intended for a wide variety of purposes and paneling similarly corresponding to reinforcement according to the invention the above explanation of the manufacture of a ship's hull is applicable.

Claims (7)

Claims 1. Reinforcement or reinforcement part for resin-impregnated layers with a plurality of rigid elements with their front faces in a regular geometric shape Patterns are glued to a flexible, porous base layer, characterized in that that at least one side surface of each rigid element (1) deviates from 900 by one Angle with respect to the plane of the base layer (2) is inclined. 2. Reinforcement according to claim 1, characterized in that the rigid Elements (1) have a hexagonal cross-section. 3. Reinforcement according to claim 1 or 2, characterized in that the side surface of each rigid element (1) by 0 an angle of about 80 opposite the plane of the base layer (2) is inclined. 4. Reinforcement according to one of claims 1 to 3, characterized in that that the rigid elements (1) are fully formed. 5. Reinforcement according to one of claims 1 to 3, characterized in that that each rigid element (1) has a central, longitudinal and continuous recess having. 6. Reinforcement according to claim 5, characterized in that the wall thickness each rigid element (1) the distance between the geometric pattern the base layer (2) corresponds to glued-on rigid elements, 7. Reinforcement after one of claims 1 to 6, characterized in that the rigid elements (1) made of wood, metal, paper, plaster of paris, polyurethane, polyvinyl chloride foam, cement, clay, Rubber or cured polyester or epoxy resin. So reinforcement according to one of claims 1 to 7, characterized in that that the base layer (2) made of flexible woven or non-woven textile material consists. 9. Reinforcement according to claim 8, characterized in that the textile material made of fiberglass, polyester resin or nylon. 100 reinforcement according to one of claims 1 to 9, characterized in that that all rigid elements (1) in the same direction, based on the base layer (2), are inclined.