Adhesive bonding and miscellaneous chemical manufacture – Methods – Surface bonding and/or assembly therefor
Reexamination Certificate
2001-10-25
2003-06-24
Sells, James (Department: 1734)
Adhesive bonding and miscellaneous chemical manufacture
Methods
Surface bonding and/or assembly therefor
C156S172000, C156S274600
Reexamination Certificate
active
06582540
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention relates to a method for manufacturing a pressure container comprising an inner liner made of polymer material, such as polyolefines or a similar material, and an outer, fibre-reinforced pressure supporting layer.
PRIOR ART
Pressure containers for fluids have several uses, such as gas containers in hospitals and fuel containers for motor vehicles, but also in a smaller scale such as propane containers for gas stoves in cottages, camping caravans and small crafts or boats for recreational use. As a rule, such containers have been manufactured from metal for security reasons. These has the disadvantage of being heavy and difficult to handle.
One solution to this problem can be to manufacture the pressure container of composite material, making the container of lighter weight and more easy to handle. At the same time, taking care of the safety in a good manner is important. In particular, it is important that the container is impact resisting, so that leakages and explosions with possible following injuries to persons can be avoided.
An example of a solution wherein the pressure container has been manufactured of composite materials is described in European patent No. 0 810 081 A1, including a method for manufacturing pressure containers, wherein an inner, gas-impenetrable liner made of plastic first is blow moulded, and thereafter, an outer layer consisting of a fibre-reinforced plastic which has been soaked in a resin bath, is wound around the liner. However, the inner and the outer layer in this pressure container is not adhered in any other way, which leads to the formation of gas pockets between the layers. This involves a safety risk, as the gas pockets will expand, should underpressure occur inside the container, which may cause a collapse of the inner layer.
Collapse of the inner liner layer may also occur due to service conditions, for example when evacuating the container, giving rise to underpressure inside the container, or when cooling, so that the temperature of the fluid becomes to low. The industry considers the generally low wetting and adhesive properties of plastic materials as a problem. Some of the reasons for this is that several plastic materials have chemical inert and non-porous surfaces, having low surface tensions. The wetting and adhesive properties of plastic materials may be increased for example by flame treatment or by corona discharge treatment. Flame treatment and corona discharge treatment are characterized in that plasma is generated, i.e., a very reactive gas comprising free electrons, positive ions and other chemical conmponents. The physical mechanisms are different, but their impact on the wetting and adhesive properties is similar. The free electrons, the positive ions, the meta-stabile components and the radicals, together with ultravilet radiation (UV radiation) being generated in the plasma areas, may impact the surface with energies that are sufficient to break the molecule bonds on the surface of the polymer material. On the surface of the polymer material, very reactive free radicals are formed, which themselves may form chemical functional groups, cross-link to chemical functional groups, or rapidly react in the presence of oxygen so that functional groups are formed. Polar functional groups which can increase the bonding property of the polymer material comprise among other carbonyl (—C═O), carboxyl (—COOH), hydroperoxide (—OOH) an hydroxylgrupper (—OH). International patent application No. PCT/SE89/00187 describes a similar method for increasing the surface energy and the hydrophilicity on surfaces of polymer materials.
Japanese patent No. JP 63215736 (abstract) of Japanese patent Nr. JP-59093632 (abstract) relates to treatment methods for polymer materials for improvement of the surface properties of the material, but intended for completely different tasks than the present invention.
WO A 98/30646 describes a process for obtaining improved adhesion between the surfaces of two polymer compositions, and a product having several polymer layers. This object is manufactured according to the described process. Apparently, the term product is directed to films and sheets having several polymer layers, and not hollow objects as in the present invention. In claim 1 of the publication, three features of the process are indicated:
1) The polymer compositions are joined by means of corona discharge treatment,
2) the layers are in contact with each other during the plasma treatment, and
3) the electrical field passes through the adjacent surfaces of the polymer compositions.
According to the present invention, corona discharge treatment is a part of the pretreatment before joining of the inner liner layer and the outer, pressure supporting layer. In addition, the inner liner layer is not in contact with the outer fibre-reinforced, pressure supporting layer during the treatment step.
U.S. Pat. No. 4,096,013 describes briefly explained a method for laminating two or more chemically different sheets using a method for laminating two or more chemically different sheets by alternating current electrical corona discharge in air, and an apparatus for laminating at least two chemically different sheets to form a laminate. Appearing from the specification, an object of the invention is that the joined sheets are free of adhesives or adhesive film layers.
U.S. Pat. No. 4,415,394 describes an apparatus for adhering two or more layers by corona discharge treatment. The material is exposed to corona discharge treatment before products are manufactured, as opposed to the present invention, wherein the inner liner layer is a finished part before being treated so as to increase the wetting and adhesive properties.
According to WO A 98/30646, U.S. Pat. Nos. 4,096,013 and 4,415,394, corona discharge treatment is utilised so as to increase the wetting and adhesive properties fo the materials for adhering polymer layers. Manufacturing of films, foil and laminates of several polymer layers are described in these publications. None of these publications show that adhesives are employed between the polymer layers. Also, they do not show that an inner polymer layer/liner layer is rotated during the complete prosess.
The object of the present invention is to avoid the disadvantages mentioned above. By using a method for manufacturing a pressure container according to the present invention, a light-weight, strong pressure container is possible to manufacture, appearing in one piece, and in addition being easy to handle, and being resistent to underpressure inside the container.
SUMMARY OF THE INVENTION
The present invention discloses a method for manufacturing a pressure container comprising an inner liner layer of polymer material, such as polyolefines or a similar material, and an outer, fibre-reinforced, pressure supporting layer. The method is characterized in that, during rotation of the inner liner layer relative to treatment, employment, and/or winding equipment, treatment of the outer side of the inner liner layer so as to increase the wetting and adhesive properties of the polymer material, employment of adhesive onto the outer side of the inner liner layer and/or direct contact between the outer side of the inner liner layer and the inner side of the outer, fibre-reinforced, pressure supporting layer, for adhesion of the inner liner layer and the outer, fibre-reinforced, pressure supporting layer, and winding of the outer, fibre-reinforced, pressure supporting layer onto the inner liner layer.
In a preferred embodiment, the treatment of outer side of the inner liner layer comprise flame treatment, but also corona discharge treatment, if desired, in combination with ozone treatment or a corresponding method for improvement of the wetting and adhesive properties of the polymer material may be used.
REFERENCES:
patent: 4096013 (1978-06-01), Lutzmann et al.
patent: 4415394 (1983-11-01), Cholmar
patent: 4927038 (1990-05-01), Roebuck
patent: 5280084 (1994-01-01), Paul
patent: 0 353 850 (1990-02-01), None
pa
Raufoss Composites AS
Rothwell Figg Ernst & Manbeck
Sells James
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