Stock material or miscellaneous articles – Hollow or container type article – Nonself-supporting tubular film or bag
Reexamination Certificate
2001-07-30
2004-01-27
Pyon, Harold (Department: 1772)
Stock material or miscellaneous articles
Hollow or container type article
Nonself-supporting tubular film or bag
C428S036600, C428S037000, C428S105000, C428S106000, C428S112000, C428S113000, C428S114000, C428S118000, C428S128000, C428S129000, C428S130000, C428S913000
Reexamination Certificate
active
06682792
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates generally to films that are used for food service applications, and more, particularly, to thermoplastic elastomer films that can be used to package food products for storage and transportation and for high temperature cooking applications and meat casing applications.
BACKGROUND OF THE INVENTION
Various thermoplastic films have been used to package, preserve, and encase food products. Conventional compositions of films include polypropylene, polyethylene, nylon, ethylene vinyl acetate, polyvinylidene chloride, and ethylene/acrylic acid copolymer. An optional adhesive layer may be employed to combine films.
Bags made from conventional films are used in steam or hot water cooking applications, however, they are not well suited for high temperature cooking applications, such as cooking beef, because they either melt or adhere to food products retained in the bag. It is desirable to fabricate bags composed of materials that cleanly strip away from food products, such as, for example, meat products, during cooking applications. Conventional bags are also limited in their ability to be used in high pressure meat casing applications where meat is stuffed into the casing because they are subject to high elongation when heated.
It is also desirable to have bags that exhibit good mechanical properties at a low cost. The food packaging industry is constantly in search of stronger, more durable bags that are resistant to tearing and abrasion so as to completely isolate the food product from the outside environment to prevent any contaminants from entering the bag. The thickness of conventional bags is often increased at additional cost to achieve preferred mechanical properties, such as tear resistance and durability.
The food packaging industry is also searching for compositions that enable bags to be made at a lower cost. The food packaging industry attempts to reduces cost by using thin films because bags fabricated from lower thickness films typically require less materials to produce. The amount of thermoplastic elastomer used to make a film directly correlates to the overall cost of manufacturing the bag. Therefore, it is desirable to use lower thickness films to reduce the amount of material used and thus the cost of the film. It is also desired to improve the seal strengths of conventional bags in order to reduce the cost of materials. Higher seal strengths mean that a lower thickness film, and therefore less thermoplastic elastomer is required to fabricate bags.
Furthermore, it is desired that conventional bags form a barrier to gases and moisture from the outside environment. Bags that exhibit good barrier properties, such as being able to reduce or eliminate moisture and gas migration though the bag, are also desired. Oxygen migration in particular should be minimized because any oxygen that enters the bag may cause the contents of the bag, such as meat products, to spoil and/or discolor.
Sealing conventional thermoplastic films is typically accomplished by applying sufficient heat and pressure to adjacent film surfaces for a sufficient time to cause a fusion bond between the layers. However, heat sealed cylindrical bags are often imperfectly sealed because the heat necessary to seal the folds of tubular stock will harm the barrier properties of the film by either overly thinning the film layer or melting through the film. Imperfect seals are a large problem, particularly in cooking applications and when used with heat shrinkable film, because exposure to elevated temperatures and heat shrinking increases the stress on the seals. As a result, many manufacturers use ultrasonic sealing techniques or mechanical closing devices to seal conventional films.
Ultrasonic sealing techniques, however, are not desired to seal thermoplastic elastomer films, such as for example, copolyester films, because the elastic structure of the films dampens the transmission of ultrasonic energy thereby preventing the complete sealing of this type of conventional bag. Therefore, mechanical sealing devices, such as for example, clips, rings or the like, are usually preferred in place of ultrasonic sealing when thermoplastic elastomer films are used. Typically, these mechanical sealing devices are made of a plastic or metal material.
Several undesirable characteristics are associated with mechanical sealing devices. Mechanical sealing devices can become a source of contamination if lost in the food product. Metal sealing devices cannot be used in microwave ovens for cooking or defrosting of the food product contained in the bags, and the metal clips sometimes migrate into the product, thereby giving rise to customer complaints. Therefore, it is desirable to have methods of sealing thermoplastic elastomer bags that eliminate the need for a mechanical device and also resolves the sealing problems associated with heat sealed and ultrasonically sealed bags.
Therefore there is a need for improved thermoplastic elastomer films and methods of making bags from these films that overcome the drawbacks and problems associated with conventional films and methods of making bags composed of conventional films.
SUMMARY OF THE INVENTION
The present invention is directed to thermoplastic elastomer films and bags made from thermoplastic elastomer films and also to methods for making thermoplastic elastomer films and bags. The thermoplastic elastomer films of the present invention are composed of thermoplastic elastomers and non-elastic polyesters. The bags of the present invention are fabricated using blended monolayer thermoplastic film that include a blend of thermoplastic elastomer and a non-elastic polyester, or co-extruded multi-layer films that include at least one layer of thermoplastic elastomer and at least one layer of non-elastic polyester. The blended monolayer thermoplastic film of the present invention are useful in the food handling industry and particularly in the meat packaging industry and for use in cooking bag applications. The co-extruded multi-layer films of the present invention are also useful in the food handling industry and particularly the meat packaging industry and for use in meat casing applications.
The films of the present invention include co-extruded multi-layered films having at least one layer of thermoplastic elastomer and at least one layer of non-elastic polyester. The preferred thermoplastic elastomers are polyether-ester block copolymers or polyester-ester block copolymers. In another embodiment of the present invention polyether-ester block copolymers or polyester-ester block copolymers and non-elastic polyesters are admixed in a melt and extruded to form a single layered film. The more preferred thermoplastic elastomers are polyether-ester block copolymers.
The films of the present invention have improved mechanical properties, particularly higher tensile strength and therefore higher resistance to tearing and abrasion, elevated melting points, increased tensile modulus, higher tensile yield strengths, lower tensile yield elongation, and higher tensile break strength. Increased tensile modulus, and therefore increased stiffness of the films of the present invention make it easier to handle and fabricate bags out of these films. Higher tensile yield strength means the films require a higher force to make the films yield or stretch beyond their elastic region thereby enabling a more controlled stretch when used to package meat. Films with high tensile yield strength produce a more consistent diameter sausage when used as a meat casing. Films of the present invention produce tighter and more consistent diameter meat casings when used in pressurized casing applications because the films have lower tensile yield elongation as compared to conventional films. Tensile yield elongation measures the amount of elongation that occurs before the film finally stretches away and yields beyond its elastic point. Films of the present invention also exhibit increased tensile break elongation compared to monolayer films of thermoplastic elasto
Bachert Ernest E.
Menges John A.
Schmal Michael D.
Witt Robert R.
M & Q Plastic Products, Inc.
Nordmeyer Patricia L.
Pyon Harold
Woodcock & Washburn LLP
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