Stock material or miscellaneous articles – Web or sheet containing structurally defined element or... – Composite having voids in a component
Reexamination Certificate
2001-04-27
2002-07-02
Pezzuto, Helen L. (Department: 1713)
Stock material or miscellaneous articles
Web or sheet containing structurally defined element or...
Composite having voids in a component
C428S304400, C428S314400, C428S314800
Reexamination Certificate
active
06413625
ABSTRACT:
The invention is in the field of the packaging industry and relates to a thermoformable foam sheeting according to the generic part of the first independent claim, which sheeting consists of a thermoformable and expandable foam material or contains at least one layer of such a material.
Open containers, such as e.g. trays or cups often used for packaging and/or for consuming food stuffs are usually produced by drawing or deep drawing a piece of flat sheeting made of a thermoformable plastic material. Such open containers have a bottom wall and a side wall or side walls. The sheeting is usually thermoformed between a pair of forming tools, i.e. between a female tool with a recess over which the preheated sheeting is positioned and a male tool movable into the recess of the female tool thereby drawing the sheeting.
The use of a sheeting consisting of a foamed material or containing at least one layer of a foamed material is advantageous for making such containers because a foam sheet or a container made of such a sheet unit is usually stiffer than the corresponding solid material with the same weight per area. Sheeting and containers consisting at least partly of foamed material are opaque. The containers need a minimum mechanical strength according to their application and they are the better accepted, the more homogeneous their opaqueness and the smoother and shinier their surface is.
A further advantage of producing the open containers of a sheeting which consists of a foamed material or contains at least one layer of such a material, is the possibility of expanding specific parts of the container walls by applying a reduced pressure to the foam when it is in a thermoformable state, whereby the gas trapped in the foam expands, and by cooling down the foam when still under reduced pressure. Such processes are described e.g. in the publications U.S. Pat. No. 3,846,526 or JP-60192615. Furthermore, a method and an apparatus for drawing and expanding foam sheeting to form open containers is described in a co-pending application (same filing date as the present application).
According to the co-pending application the containers are formed with the help of a male tool moving into the recess of a female tool and thereby drawing the preheated sheeting positioned over the recess of the female tool. During the movement of the male tool the pressure on at least one side of the sheeting is reduced such that it reaches a value (expansion pressure) below ambient pressure which is low enough for expanding the foam material when the male tool reaches its end position or immediately afterwards. The tools are then kept in the end position and expansion pressure is maintained until the sheeting has cooled down to a temperature below its plastication temperature. Then the formed container is demolded. Before the moving male tool contacts the preheated sheeting, the sheeting may be prestretched by applying a pressure difference to it (lower pressure on the female tool side). Such prestretching is preferable in particular when producing containers by deep drawing (drawing ratio>1) and/or containers with a difficult shape (not round bottom wall, steep side walls).
With the method described in the last paragraph and using tools which have, for removing air from between the sheeting and the tool surface, a pattern of openings on at least those parts of their surface which are to form the side walls of the container (as described in a further co-pending application with the same application date as the present application), it is possible to produce in a minimum cycle time from a sheeting at least partly consisting of foamed material, open containers with a wall thickness and wall density which are primarily determined by the mechanical properties the container is to have. This means that the container wall may have, according to the degree of drawing and of expansion a varying thickness and in particular a varying density.
Using known sheetings consisting of or containing e.g. polysterene or polypropylene foam for producing open containers according to the above described method, may create problems in that on the, produced containers areas or varying degree of drawing and/or expansion show optically or even lead to mechanical faults which happens in, particular when the cycle time is short and/or the drawing ratio is high or the shape of the container is difficult, as are e.g. container shapes with a non-round bottom wall and/or with very steep side walls.
It is therefore the object of the invention to create a sheeting, consisting of a foamed material or containing at least one layer of a foamed material which sheeting has good drawing, characteristics and an opaqueness which varies little with density such that the sheeting can be processed using the method of the co-pending application in particular with very short cycle times and with high drawing, ratios and difficult container, shapes resulting in containers which are mechanically and estheticly of good quality. In addition, the sheeting as well as the containers made from the sheeting are to be easily recyclable and compatible with food stuffs of a variety as wide as possible (solid and liquid, hot and cold etc.).
This object is achieved by the sheeting as defined by the claims.
For fulfilling the condition of the recyclability and the food compatibility, the inventive sheeting consists basically of polypropylene. This means it consists fully of a polypropylene foam or contains at least one layer of polypropylene foam and contains a further layer or further layers e.g. of solid polypropylene or of other thermoformable materials, e.g. barrier materials.
The opaqueness of a plastic foam material is due to light scattering on the cell walls. The finer the arrangement of these cell walls is, the more times light falling into the material is scattered and the more opaque does the material appear. It is found that the finer the arrangement of the cell walls, the less does the appearance of the material change when drawn and/or expanded to quite a high degree. It is found also that the finer the arrangement of the cell walls the better are the drawing characteristics of the foam. This is due to the fact, that the occurrence of cells which are large enough for locally changing the drawability of the foam to a considerable degree and for being torn open upon drawing, gets more probable as the cell size increases, i.e. as the fineness of the cell wall structure decreases.
The measure for the fineness of the cell wall structure in a plastic foam material is the cell number (cells per mm
3
). It is found that sheetings with polypropylene foams having a cell number which is higher than 300 cells per mm
3
and processed in the method according to the co-pending application give good quality containers for a relatively low drawing ratio (container depth divided by diameter of opening: between 0.5 and 1, depending on container shape and expansion ratio). Sheeting with polypropylene foam with a cell number of up to 3000 cells per mm
3
gives good quality containers for drawing ratios of 0.8 to 1.5 (depending on container shape and expansion ratio). For the production of containers such as cups and trays for packaging and/or consuming food stuffs in a drawing process as described in the co-pending application, sheeting with polypropylene foam having a cell number of 800 to 2500 cells per mm
3
, preferably of 1000 to 2000 cells per mm
3
, is very suitable.
The polypropylene foam of the inventive sheeting, has a density of 0.1 to 0.7 gr/cm
3
, preferably of 0.25 to 0.5 gr/cm
3
, even more preferably of 0.36 to 0.50 gr/cm
3
. The sheeting has a thickness of 0.5 to 3 mm, preferably of 1 to 2 mm and even more preferably of 1.2 to 1.6 mm.
If, depending on the density of the polypropylene foam and on the thickness of the sheeting to be made, a polypropylene blend containing between 50 and 100% of high melt strength polypropylene with a melt strength of ca. 24 cN is used, extrusion of a sheeting with the above mentioned characteristics is possible without problem.
Pittet Michel
Rolle Jean-Claude
Oppedahl & Larson LLP
Pezzuto Helen L.
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