A method of making a sandwich-type composite panel having a living hinge from a stack of material is provided. The stack includes first and second reinforced thermoplastic skins heated to a softening temperature and a thermoplastic cellular core disposed between the skins. The first skin is stretchable when heated to the softening temperature. A pressure is applied to the stack after the step of heating to form the composite panel. A portion of the composite panel is crushed at a predetermined location simultaneously with the step of applying to locally compact and separate the cellular core at the predetermined location to form two side portions of the panel and a crushed portion of the panel between the two side portions. The first skin stretches during the step of crushing while remaining intact between the two side portions. The skins bond together at the predetermined location to form the living hinge.
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1. A method of making a sandwich-type composite panel having a living hinge, the method comprising:
providing a stack including first and second reinforced thermoplastic skins and a thermoplastic cellular core disposed between the skins;
heating the skins to a softening temperature wherein the first skin is stretchable when heated to the softening temperature;
applying a pressure to the stack after the step of heating to form the composite panel; and
crushing a portion of the composite panel at a predetermined location simultaneously with the step of applying pressure to locally compact and separate the cellular core at the predetermined location to form two side portions of the panel and a crushed portion of the panel between the two side portions, the first skin stretching during the step of crushing while remaining intact between the two side portions, the first and second skins at the predetermined location bonding together to form the living hinge between the two side portions.
15. A method of making a carpeted sandwich-type composite panel having a living hinge, the method comprising:
providing a stack including first and second reinforced thermoplastic skins, a thermoplastic cellular core disposed between the skins and a thermoplastic covering layer for covering the second skin;
heating the skins to a softening temperature wherein the first skin is stretchable when heated to the softening temperature;
applying a pressure to the stack after the step of heating to form the carpeted composite panel; and
crushing a portion of the composite panel at a predetermined location simultaneously with the step of applying pressure to locally compact and separate the cellular core at the predetermined location to form two side portions of the panel and a crushed portion of the panel between the two side portions, the first skin stretching during the step of crushing while remaining intact between the two side portions, the covering layer and first and second skins at the predetermined location bonding together to form the living hinge between the two side portions.
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This invention relates, in general, to the field of panels having a sandwich-type composite structure with a cellular core and, in particular, to such panels and methods of making such panels so that the panels have a living hinge.
Sandwich-type panels having cellular cores have very important characteristics because of their light weight and high strength. Conventionally, such panels are constructed by sandwiching a cellular core having low strength characteristics between two skins, each of which is much thinner than the cellular core but has excellent mechanical characteristics.
The prior art discloses a method of making a panel of sandwich-type composite structure having a cellular core in a single processing step. In that method, the panel is made by subjecting a stack of layers of material to cold-pressing in a mold. As shown in
Such a method is particularly advantageous because of the fact that it makes it possible, in a single operation, to generate cohesion and bonding between the various layers of the composite structure as shown in
Panels of sandwich-type composition structure having a cellular core have rigidity characteristics sufficient to enable mechanical structures subjected to large stresses to be reinforced structurally without making them too heavy. Such panels are in common use in shipbuilding, aircraft construction, and rail vehicle construction.
To maximize the functionality of such panels, it is known, in particular, that hinges can be added so that the panels can be hinged to other panels. Such hinges are separate parts that are fixed to the panels by gluing, welding, riveting, or some other fastening technique.
Such hinges are fixed to the sandwich-structure composite panels in a separate and subsequent operation, after said panels have been formed. That subsequent operation requires an additional workstation, be it automated or otherwise, which increases, in particular, the manufacturing time and the manufacturing cost of the finished parts.
In addition, the fact that separate external parts are mounted on a composite panel of the sandwich-type is a source of quality defects, and thus adds to the cost of making such panels.
Published U.S. Patent Application 2005/0189674 discloses a method of making a composite panel of sandwich structure provided with a hinge. The panel includes a stack made up of a first skin of a reinforced thermoplastics material, a cellular core made of a thermoplastics material, and a second skin made of a reinforced thermoplastics material. The panel is formed by pressing the stack in a mold. The first and second skins are preheated to a softening temperature. As shown in
Other U.S. patent documents related to the present invention include: U.S. Pat. Nos. 5,502,930; 5,915,445; 6,050,630; 6,102,464; 6,435,577; 6,537,413; 6,655,299; 6,682,675; 6,748,876; 6,790,026; 6,682,676; 6,825,803; 6,843,525; 6,890,023; 6,981,863; 7,090,274; 7,909,379; 7,919,031; 8,117,972; 2006/0255611; and 2008/0185866.
One problem associated with living hinges of the prior art panels is that the panels are quite strong but the living hinges may not be strong enough during extended use. Also, the cost of making such living hinges may be significant on a mass production basis as additional process steps may be required to make the living hinges outside of the mold which makes the panels.
An object of at least one embodiment of the present invention is to provide a low-cost, high volume method of making light-weight and strong sandwich-type composite panels having living hinges and panels obtained by performing the method wherein the resulting living hinges are strong enough so they function properly during extended use without the need for additional materials or additional post processing steps.
In carrying out the above object and other objects of at least one method embodiment of the invention, a method of making a sandwich-type composite panel having a living hinge is provided. The method includes providing a stack including first and second reinforced thermoplastic skins and a thermoplastic cellular core disposed between the skins. The method also includes heating the skins to a softening temperature wherein the first skin is stretchable when heated to the softening temperature. The method further includes applying a pressure to the stack after the step of heating to form the composite panel. The method still further includes crushing a portion of the composite panel at a predetermined location simultaneously with the step of applying to locally compact and separate the cellular core at the predetermined location to form two side portions of the panel and a crushed portion of the panel between the two side portions. The first skin stretches during the step of crushing while remaining intact between the two side portions. The first and second skins are bonded together at the predetermined location to form the living hinge between the two side portions.
Further in carrying out the above object and other objects of at least one method embodiment of the present invention, a method of making a carpeted sandwich-type composite panel having a living hinge is provided. The method includes providing a stack including first and second reinforced thermoplastic skins, a thermoplastic cellular core disposed between the skins and a thermoplastic covering layer for covering the second skin. The method also includes heating the skins to a softening temperature wherein the first skin is stretchable when heated to the softening temperature. The method further includes applying a pressure to the stack after the step of heating to form the carpeted composite panel. Finally, the method includes crushing a portion of the composite panel at a predetermined location simultaneously with the step of applying to locally compact and separate the cellular core at the predetermined location to form two side portions of the panel and a crushed portion of the panel between the two side portions. The first skin stretches during the step of crushing while remaining intact between the two side portions, The covering layer and the first and second skins at the predetermined location are bonded together to form the living hinge between the two side portions.
The first and second skins may be chemically bonded to each other at the predetermined location to form the living hinge.
The covering layer may be a resin carpet for covering the second skin. The resin may be polypropylene.
The cellular core may be a honeycomb core.
Each or one of the skins may be fiber reinforced.
The thermoplastic of the skins, the carpet and the core may be polypropylene.
The panel may have a thickness in the range of 5 to 25 mm.
The living hinge may have a thickness less than 3 mm, such as 2 mm or less.
At least one of the skins may be a woven skin such as a woven polypropylene skin.
At least one of the skins may be a woven polypropylene skin.
The pressure may lie in a range including 10×105 Pa to 30×105 Pa.
Further in carrying out the above object and other objects of at least one carpeted panel embodiment of the present invention, a carpeted panel of a composite-type composite structure is made by performing one of the above-noted methods. The panel includes a stack having a first skin of a reinforced thermoplastic material, a cellular core of a thermoplastic material, a second skin of a reinforced thermoplastic material and a covering layer of a thermoplastics material. The panel also includes a living hinge defined by the crushed portion.
Still further in carrying out the above object and other objects of at least one panel embodiment of the present invention, a panel of sandwich-type composite structure is made by performing another one of the above-noted methods. The panel includes a stack having a first skin of a reinforced thermoplastics material, a cellular core of a thermoplastics material, and a second skin of a reinforced thermoplastics material. The panel also includes a living hinge defined by the crushed portion.
Other technical advantages will be readily apparent to one skilled in the art from the following figures, descriptions and claims. Moreover, while specific advantages have been enumerated, various embodiments may include all, some or none of the enumerated advantages.
As required, detailed embodiments of the present invention are disclosed herein; however, it is to be understood that the disclosed embodiments are merely exemplary of the invention that may be embodied in various and alternative forms. The figures are not necessarily to scale; some features may be exaggerated or minimized to show details of particular components. Therefore, specific structural and functional details disclosed herein are not to be interpreted as limiting, but merely as a representative basis for teaching one skilled in the art to variously employ the present invention.
Referring now to the
The method may include providing a stack of material, generally indicated at 14 in
The first skin 16 is stretchable when heated to the softening temperature and stretches when a pressure is applied to the stack 14 by the inner mold surfaces of the mold halves 24 and 26 including the outer surface of the protrusion 28 within the mold 22 to form the composite panel 10 with the living hinge 12. A portion 32 of the composite panel 10 (
As previously mentioned, the stack 14 of
The covering layer 21 may be a resin carpet and the resin may be polypropylene. One side or both sides of the cover portion of the panel 10 may be covered with an outer covering layer made of a woven or non-woven material (typically of the carpet type).
The cellular core 20 may be a honeycomb core. In this example, the cellular core 20 is an open-celled structure of the type made up of tubes or of a honeycomb, and it is made mainly of polyolefin and preferably of polypropylene. It is also possible to use a cellular structure having closed cells of the foam type.
Each of the skins 16 and 18 may be fiber reinforced. The thermoplastic of the skins 16 and 18, one or more covering layers 21 and the core 20 may be polypropylene. At least one of the skins 16 and 18 may be a woven skin, such as polypropylene skin. The first and second skins 16 and 18 may be reinforced with fibers, e.g., glass fibers, carbon fibers or natural fibers. The first and second skins 16 and 18 may advantageously be made up of woven glass fiber fabric and of a thermoplastics material.
The resulting panel 10 may have a thickness in the range of 5 to 25 mm and the crushed portion of the panel 10 may have a thickness less than 3 mm such as 2 mm or less.
In one example method of making such a panel, the panel 10 is formed by pressing the stack 14 in the low-pressure, cold-forming mold 22, the stack 14 being made up of the first skin 16, the cellular core 20, and the second skin 18. The stack may be pressed at a pressure lying in the range 10×105 Pa. to 30×105 Pa. The first and second skins 16 and 18 are preferably pre-heated in the method to make them malleable and stretchable. Advantageously, in order to soften the first and second skins, heat is applied to a pre-assembly constituted by the stack made up of at least the first skin 16, of the cellular core 20, and of the second skin 18 so that, while the panel 10 is being formed in the mold 22, the first and second skins 16 and 18 have a forming temperature lying approximately in the range 160° C. to 200° C., and, in this example, about 180° C.
The protrusion 28 may have other shapes in cross section as shown in
While exemplary embodiments are described above, it is not intended that these embodiments describe all possible forms of the invention. Rather, the words used in the specification are words of description rather than limitation, and it is understood that various changes may be made without departing from the spirit and scope of the invention. Additionally, the features of various implementing embodiments may be combined to form further embodiments of the invention.
Preisler, Darius J., Heikkila, Christopher A.
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