NL2009909C2 - MATERIAL WITH A SURFACE STRUCTURE AND A METHOD FOR APPLYING A PROTECTION COAT TO A MATERIAL WITH A SURFACE STRUCTURE. - Google Patents

Description

MATERIAL WITH A SURFACE STRUCTURE AND A METHOD FOR APPLYING A PROTECTION COAT TO A MATERIAL WITH A SURFACE STRUCTURE

The invention relates to a material with a surface structure, which material is adapted to be applied to an object, for example for reducing the resistance of the object or for reducing fouling on the object in (sea) water. The material can for instance be a foil.

Such materials or films are known per se, for example from the Dutch patents with numbers NL-C-1035216 and NL-C-1029708. The films from, for example, NL-C-1035216 and NL-C-1029708 are flexible plastic films with a surface structure for reducing the air resistance of an object moving in air, for example a car or an airplane. Other such materials or films exhibit a surface structure for reducing the resistance of an object moving in water, such as a boat or ship. The dimensions of the surface structures of such materials or films are selected depending on, among other things, the speed of movement of the object and the medium in which the object is moving. For example, the dimensions of the surface structure are between a few micrometers to a few hundred micrometers. These or other materials or films are also suitable for reducing or even preventing fouling of organisms, such as algae, mussels, etc., on objects in (sea) water, such as boats or offshore structures. Such materials or films are also referred to as antifouling materials or films.

A drawback of the known materials is that, for example when applying the material to an object or during storage or transport of the material, the surface structure can be damaged. Damaged surface structures have the disadvantage that the reduction of the resistance or fouling can become lower than with an undamaged surface structure.

It is an object of the invention to at least partially overcome the aforementioned drawback. In particular, it is an object of the invention to provide a material or foil of the type mentioned in the preamble which can be easily applied to an object 30 and / or can be easily transported and stored with a reduced risk of damage to the surface structure of the material.

This object is achieved with a material of the type mentioned in the preamble, for example a foil which according to the invention is characterized by a removable protective layer which is applied to the surface structure of the material to protect the surface structure.

2

The protective layer applied to the surface structure of the material protects the surface structure of the material, for example during transport and / or storage and / or applying the material to an object. The protective layer hereby absorbs compressive forces exerted on the material with protective layer. For example, the protective layer absorbs the pressure forces that a person or device exerts thereon when applying the material to the object in order to obtain a good adhesion between the material and the object. After applying the material to the object, the protective layer can easily be removed from the material, so that the surface structure of the material is exposed.

The material or film comprises, for example, an outer surface of polytetrafluoroethylene (PTFE), of silicone, of polyvinylidene fluoride (PVDF), of acrylate / polyvinylidene fluoride, or of another suitable plastic. The protective layer does not adhere to such materials, so that it can be easily pulled off. The material or foil can be made of such materials or comprise an outer layer thereof, which can be applied on a basis of another material, for example of polyvinyl chloride (PVC) or of a mixture of polyvinyl chloride (PVC) and ethylene vinyl acetate. It is noted that the outer surface is herein defined as the surface of the material or the foil that faces away from the object in a state applied to the object.

The protective layer is preferably a flexible layer, so that the flexible material or flexible film can easily be applied to an object.

In an embodiment of the material according to the invention, the protective layer comprises a plastic. The plastic is, for example, selected from the group comprising polyvinyl chloride (PVC), alkyd, acrylate, polyurethane (PU) and epoxy. More specifically, the protective layer is made of polyvinyl chloride (PVC). The protective layer can also be a plastic-containing paint, which plastic can be selected from the group mentioned above.

For applying the material to the object, for example, the side of the material remote from the surface structure is provided with an adhesive layer. The adhesive layer may be provided with a removable cover layer for transport and / or storage of the material, which layer is removed prior to applying the material to the object. Alternatively, the material is adhered to the object with the aid of a separate adhesive with its side remote from the surface structure.

The protective layer can be formed by applying a layer of a liquid substance to the film and then allowing it to dry.

The invention furthermore relates to a method for applying a protective layer to a material with a surface structure, for instance a foil, which material is adapted to be applied to an object, for instance for reducing the resistance of the object or for reducing fouling on the object in (sea) water, the method comprising the steps of: (a) providing the material with the surface structure, and (b) applying the protective layer to the surface structure of the material .

Practically, step (b) is performed by performing the following steps: (c) providing a liquid, e.g. plastic-containing, substance, (d) applying a layer of the liquid substance to the surface structure of the material; (e) allowing the liquid substance to dry to form the protective layer.

The application of the liquid substance can for instance take place by pouring. The application of the substance in liquid form offers the advantage that the substance simply conforms to the possibly complex surface structure of the material. The plastic is, for example, selected from the group comprising polyvinyl chloride (PVC), alkyd, acrylate, polyurethane (PU), and epoxy. More in particular, the substance is polyvinyl chloride (PVC) or a paint based on one of the plastics mentioned.

In an embodiment of the method according to the invention, step (d) is carried out by transporting the material along a rotating roller, the surface structure being on the side of the material facing the roller, and wherein the roller transfers in liquid is in contact with a container filled with the liquid substance for transferring the liquid substance from the container to the material.

With the aid of such a roller, the substance can easily be applied to the material.

In another embodiment of the method according to the invention, the holder comprises a second roller, which is arranged adjacent to the roller, such that the peripheral walls of the roller and the second roller touch each other in a contact zone, and wherein the holder is formed by a space between the roller and the second roller which is bounded along its longitudinal direction by the contact zone and which is bounded at its end zones by end elements arranged at the end zones.

Such a space filled with the substance to be applied is also referred to as a nip.

In another embodiment of the method according to the invention, the peripheral wall of the roller is located at a certain distance from the material, the layer of liquid substance applied to the material having a thickness that substantially corresponds to the determined distance.

In yet another embodiment of the method according to the invention, the liquid substance comprises a plastic selected from the group comprising polyvinyl chloride (PVC), alkyd, acrylate, polyurethane (PU), and epoxy. More in particular, liquid substance 4 is liquid polyvinyl chloride (PVC). The liquid substance can also be a plastic-containing paint, which plastic can be selected from the group mentioned above.

The invention further relates to a method for applying a material with a surface structure to an object, which method comprises the steps of: (f) providing a material according to the invention as described above, which material is arranged to be applied to a object, for example for reducing the resistance of the object or for reducing fouling on the object in (sea) water, which material is characterized by a removable protective layer applied to the surface structure of the material for protection of the surface structure: (g) applying the material to an object such that the material is applied to the object with a side of the material remote from the surface structure.

(h) removing the protective layer from the material.

Due to the protective layer applied to the material, the material can easily be applied to the surface, wherein a person or a device can exert a compressive force on the material to obtain a good adhesion of the material to the object, without that the surface structure is damaged by the pressure forces or at least with a reduced risk of damage. The material is for instance adhered to the surface with the aid of an adhesive, which adhesive can be provided separately or applied as an adhesive layer on the material, as described above.

The invention will be further elucidated with reference to figures shown in a drawing, in which figure 1 shows a cross-sectional view of a foil according to the invention; and figure 2 shows a method for manufacturing the film from figure 1.

Figure 1 shows a foil 1 with a surface structure, in this case a so-called riblet structure. The foil has an adhesive layer 2 on its underside, with which the foil can be applied to an object for reducing the resistance of the object or for reducing fouling on the object in (sea) water. On its upper side, namely on the side of the surface structure of the foil 1, the foil 1 is provided with a removable protective layer 3, which is applied to the surface structure of the foil to protect the surface structure. The protective layer 3 is a flexible layer, for example a polyvinyl chloride (PVC) or a plastic-containing paint. Due to the presence of the protective layer 3, the foil 1 can easily be applied to the surface of the object, whereby a compressive force can be exerted on the protective layer to allow the foil with the adhesive layer to adhere well to the object, without the surface structure of the foil 1 is damaged by the pressing forces or in any case with a reduced risk of damage. After applying the foil 1 to the object, the protective layer 3 can be removed from the foil 1, so that the surface structure of the foil 1 is exposed. A cover layer 4 is provided on the adhesive layer 2, which covers the adhesive layer 2, and which can be removed before applying the foil 1 to the object so that the adhesive layer is exposed.

Figure 2 shows a device for manufacturing the film 1 from figure 1. This shows that the film 1 is transported in a conveying direction 5 and is thereby guided along a rotating roller 6. The roller 6 then rotates in a direction 7, or along with the conveying direction 5. The surface structure is then located on the side of the foil 1 facing the roller 6. Next to the roller 6, a second roller 9 is arranged, which is arranged in a direction 10 rotates in the opposite direction to direction 7. As can be seen from Figure 2, the peripheral walls of the roller 6 and the second roller 9 touch each other in a contact zone 11, a holder or nip 12 being formed by a space between the roller 6 and the second roller 9 which is bounded along its longitudinal direction by the contact zone 11 and which is bounded at its end zones by end elements arranged at the end zones (not shown). The nip 12 contains a liquid substance 8, for example polyvinyl chloride (PVC) or a plastic-containing paint. As a result of the rotation of the roller 6 in the direction 7, the roller 6 in each case carries a layer of the substance 8 and transfers that layer to the film 1 on the underside of the roller 6, namely on its side facing the foil 1 wherein the substance 8 is applied to the surface structure. Subsequently, the layer of substance 8 can dry to form the protective layer 3. Drying can take place passively or, for example, by heating or blowing air.

It is noted that the invention is not limited to the embodiments shown, but also extends to variants within the scope of the appended claims.

Claims (11)

1. Film with a surface structure, which film is arranged to be applied to an object, for example for reducing the resistance of the object or for reducing fouling on the object in (sea) water, which film is characterized by a removable protective layer, which is applied to the surface structure of the material to protect the surface structure. The film of claim 1, wherein the protective layer is a flexible layer. 10 The film of claim 2, wherein the protective layer comprises a plastic. The film of claim 3, wherein the plastic is selected from the group comprising polyvinyl chloride (PVC), alkyd, acrylate, polyurethane (PU), and epoxy. 15 A film according to any one of the preceding claims, wherein the protective layer is formed by applying a layer of a liquid substance to the film and subsequently allowing it to dry. 6. Method for applying a protective layer to a film with a surface structure, which film is adapted to be applied to an object, for example for reducing the resistance of the object or for reducing fouling on the object in (sea) water, the method comprising the steps of: (a) providing the material with the surface structure, and (b) applying the protective layer to the surface structure of the material. 25 A method according to claim 6, wherein step (b) is performed by performing the following steps: (c) providing a liquid, e.g. plastic-containing, substance, (d) applying a surface structure of the material to a layer of the liquid substance; (e) allowing the liquid substance to dry to form the protective layer. Method as claimed in claim 7, wherein step (d) is carried out by transporting the material along a rotating roller, the surface structure being on the side of the material facing the roller 35, and wherein the roller in liquid-transferring contact is with a container filled with the liquid substance for transferring the liquid substance from the container to the material. 9. Method as claimed in claim 8, wherein the holder comprises a second roller, which is arranged adjacent to the roller, such that the peripheral walls of the roller and the second roller touch each other in a contact zone, and wherein the holder is formed by a space between the roller and the second roller which is limited over its longitudinal direction by the contact zone and which is limited at its end zones by end elements arranged at the end zones. A method according to claim 8 or 7, wherein the peripheral wall of the roller is at a specific distance from the material, and wherein the layer of liquid substance applied to the material has a thickness that substantially corresponds to the determined distance. 11. A method according to any one of claims 6-10, wherein the liquid substance comprises a plastic selected from the group comprising polyvinyl chloride (PVC), alkyd, acrylate, polyurethane (PU), and epoxy. 12. Method for applying a film with a surface structure to an object, which method comprises the steps of: (f) providing a film according to any one of claims 1-6, which film is adapted to be applied to an object applied, for example for reducing the resistance of the object or for reducing fouling on the object in (sea) water, which foil is characterized by a removable protective layer applied to the surface structure of the material to protect the surface structure: (g) applying the material to an object such that the material is applied to the object with a side of the material remote from the surface structure. (h) removing the protective layer from the material.