NL1020062C2 - Bonding articles to fibre reinforced amorphous plastic bodies, e.g. for making shuttering sections, by heating surface of body prior to applying adhesive - Google Patents

Abstract

A surface of the composite body (2) is heated before applying adhesive. A method for bonding an article to a fibre- reinforced amorphous plastic body comprises heating a surface of the body prior to applying adhesive.

Description

Process for bonding an amorphous plastic

The invention relates to a method for gluing a body with an adhesive surface to a second body, which body is composed of a composite of an amorphous plastic and a fiber structure.

Bonding amorphous plastics, such as polypropylene, involves problems. The surface of these types of materials is smooth, making it difficult to attach a mechanical bond to it. Moreover, the material properties of amorphous plastics are such that it is also not possible to form a chemical bond with sufficient strength. Although it is possible to make an adhesive connection with an amorphous plastic, the mechanical properties of such an adhesive connection are insufficient for many applications.

The same applies to gluing composites, wherein the fiber structure is embedded in an amorphous plastic. Here too gluing involves problems.

The object of the present invention is to provide such a method that leads to a connection with a considerably greater bonding force, so that the composition formed by gluing can also be used for applications where a high strength is required.

This object is achieved in that at least the adhesive surface of the plastic body is heated before the glue is applied.

The heating leads to changes in the molecular structure of the plastic, so that a better adhesion can be formed. Another effect lies in the softening of the plastic, so that the fibers embedded here, which generally lead to better adhesion, are more accessible to the glue.

According to a first embodiment, at least the adhesive surface of the plastic body is heated until the fibers protrude from the adhesive surface.

V r> / -; . , ...

V. ·· * · ri

i / V 4 «V UX U V VVJ.XU ^ W V V411I AVXVIU WVW VV11 i ^ UVU WXii ^ w ^ V» W

fibers, because they are more accessible to the glue.

Attention is drawn here to the fact that it is known to glue plates of amorphous plastic through the intervention of a fiber mat. The fiber mat is hereby placed on the plastic plate and the assembly thus obtained is heated to partially embed the fibers in the plastic. This is a costly and labor-intensive method. The present method provides a simpler and cheaper method. A further preferred embodiment teaches that the heating is carried out so quickly that the fibers protrude bare, without covering a layer of the amorphous material.

These fibers are thus sufficiently exposed so that a good adhesion between glue and fibers can be formed.

According to yet another preferred embodiment, the heating takes place by means of a flame.

A flame appears to be a simple way of rapidly heating the plastic with the required effects in practice, so that a good glue joint with the required strength can be formed.

If the fibers have an enlarged surface due to porosity, rough surface or a hollow structure, better adhesion is obtained.

The advantages of the invention are particularly evident when the body is formed by a plate of the composite.

The plate shape can easily be processed by the aforementioned methods, after which a better adhesion between plate and the second body is formed.

This is particularly important when the second body is formed by a plate of woody material.

A composite plate is hereby obtained which can be used for numerous purposes. The poorly adhering property of the amorphous plastic on its surface makes such a composite sheet useful as a coating material in structures.

This property is used particularly useful when the glued composition is used to manufacture a formwork element for pouring concrete.

Lately, use has increasingly been made of formworks that are used a large number of times. The method according to the invention herein provides a composite panel which has very good properties in terms of adhesion, strength and durability. The use of a wood-like material such as plywood, chipboard and the like offers the option required in these situations for nailing the composite plate to a structure 10 and for attaching elements for forming recesses in the concrete to the composite plate, for example.

Formwork elements are often used here that can be used several times, for example when building large formworks for infrastructure works of art. For this purpose panels are used which are provided with an aluminum frame in order to obtain the required rigidity, without adversely affecting the manageability. A relevant preferred embodiment therefore teaches that the glued composition is mounted on a frame.

Next, the present invention will be elucidated with reference to the accompanying drawings, in which: figure 1: a plate made of amorphous plastic which is subjected to a pretreatment according to the invention; Figure 2: a detailed cross-section of the pre-treated material according to the invention; figure 3: a cross-sectional view during pressing of the composite plate according to the invention; and figure 4: a perspective view of a formwork panel manufactured according to the invention.

Figure 1 shows a work table 1 on which a plate 2 of a composite of polypropylene and a fiber structure of glass fiber embedded therein is placed. This plate 2 must be connected to a multiplex plate by means of an adhesive connection. In the method according to the invention, the plate 2 is subjected to a flame treatment by means of a flame torch 3 in advance.

Figure 2 shows how the effect of the flame on 4 is the material 2. Figure 2 therefore shows a greatly enlarged cross-section of the material. This is formed by a mass 4 of polypropylene, in which glass fibers 5 are embedded. Incidentally, the present invention is not limited to the use of polypropylene; it can also be used with other amorphous plastics, such as polyethylene, PTFE, or ECTFE.

In this case glass fiber 5 is embedded in the polypropylene to increase the strength. Other materials, such as carbon fiber and the like, can be used instead of glass fibers. Heating with a flame causes the polypropylene to become soft and the fibers to deform at least in part, whereby they will protrude beyond the polypropylene. Rapid heating results in the material softening quickly, so that the fibers protrude naked and can form a good bond with the glue.

It is pointed out here that the nature of the glue is less relevant for the present invention; of course, a glue type must be chosen that ensures a good adhesion between the glass fibers and of course a good adhesion with the material to which the composite sheet must be glued.

Furthermore, it is preferable that a type of glue is chosen which also, as far as possible, forms an adhesion with the amorphous plastic. However, a person skilled in the art will be able to choose such a type of glue.

After the glue layer has been applied, the plate 2 is placed on the lower table 6 of a press indicated in its entirety by 7, after which a layer of glue can be applied, and in the present case a wooden plate 8 is then placed on the plate 2 . Thereafter, the pressing element 9 of the press is moved downwards for a certain time to form a good adhesion.

It will be clear that it is also possible to place and stack a stack of composite plates together in the press. As already indicated, a sturdy composite plate is obtained which lends itself particularly well for use as a formwork element. Figure 4 therefore shows 5 an animal-like form element 10 which is formed around the plate 2, on which a multiplex plate 8 is glued by the method according to the present invention and wherein, by means of, for example, a screw connection, an aluminum frame 11 with the multiplex plate 8 a sturdy panel is obtained that can be used as a formwork element.

The above exemplary embodiment relates to the bonding of a composite plate to a plate of wood-like material, such as plywood. It is also possible to glue such a composite plate to plates of other material such as metals, or to materials with a different structure such as a honeycomb plate or a foam plate. Here too you can choose from different materials.

The invention is applicable not only to flat plates, but also to non-flat bodies, such as, for example, car body parts. Due to the lower required structural strength, this applies mainly, but not exclusively, to bumpers.

Bumpers must be attached to body parts. Up to now, screw connections have always been used. When using bumpers made from composite material, it can be attractive to use glue joints according to the invention.

Claims (15)

Method for gluing a body with an adhesive surface to a second body, which body is composed of a composite of an amorphous plastic and a fiber structure, characterized in that at least the adhesive surface of the plastic body is heated before the glue is heated applied. 2. Method according to claim 1, characterized in that at least the adhesive surface of the plastic body is heated until the fibers protrude from the adhesive surface. Method according to claim 1 or 2, characterized in that the heating is carried out so quickly that the fibers protrude bare, without encapsulation of a layer of the amorphous material. Method according to claim 1, 2 or 3, characterized in that the heating is carried out by a flame. Method according to claim 1, 2 or 3, characterized in that the fibers have an enlarged surface. 6. Method according to one of the preceding claims, characterized in that the body is formed by a plate of the composite. Method according to claim 6, characterized in that the second body is formed by a plate of wood-like material. Method according to claim 7, characterized in that the glued composition is used for the manufacture of a formwork element for pouring concrete. Method according to claim 7, characterized in that the glued composition is mounted on an aluminum frame. Method according to any of claims 1-6, characterized in that the second plate is formed by a honeycomb plate. 11. Method as claimed in any of the claims 1-6, characterized in that the second plate is formed by a plastic foam plate 35. Method according to one of claims 1 to 5, characterized in that the body is formed by a non-flat body such as a car body part, in particular a bumper. A composite plate obtained by any of the methods according to any of claims 1-7, 10 and 11. 14. Formwork element obtained with a method according to claim 8 or 9. Workpiece as obtained by the method of claim 12.