The invention relates to fiber sheets, to structures comprising the fiber sheets and to the use of the sheets. The invention further relates to biodegradable and/or recyclable products comprising the fiber sheets, useful in replacing non-biodegradable products.

Techniques and technologies are generally described herein for providing shape memory polymer packaging for meat products from sheets or films of shape memory polymer material. Shape memory polymers are a class of smart materials which have the ability to return to their original or trained state from a deformed or temporary state when a stimulus is provided. The stimulus is typically a temperature change. The stimulus may also be exposure to an electric or magnetic field, exposure to light, or even exposure to a particular atmosphere, e.g., water. Shape memory polymers now include many materials, including both thermoplastic materials and thermoset materials (covalently cross-linked). The memory effect of the shape memory polymer is used to shape a meat product and to make the meat product more attractive to a consumer.

A packaging pouch for storing and/or transporting one or more dip tube assemblies is provided. The pouch includes a front side sealably and fixedly attached to a back side along a first sealed edge, a second sealed edge, and a sealed end. The front side and back side define an opening at an end opposite the sealed end. A plurality of welds extend over at least a portion of the length of the pouch from the sealed end towards the opening, wherein generally adjacent welds define cavities for dip tube storage. Individual dip tubes are held separated and out of contact with each other within individual cavities, reducing or preventing generation of particulates or other contaminants. The packaging pouch is sealed to provide additional protection. Related packaging systems and methods are also disclosed.

The invention relates to compounds of the structure of formula I and II:

##STR00001##

where X is selected from the group consisting of O, S and NH; Y, A and B are independently selected from the group consisting of N and CH; D, E and F are independently selected from the group consisting of CH, N, O and S; the symbol ---- represents a single or a double bond; and R.sub.1, R.sub.2 and R.sub.3 are independently selected from the group consisting of H, electron withdrawing groups and electron releasing groups. In other embodiments, the compounds are used as oxygen scavengers and in barrier compositions and articles.

The invention relates to compounds of the structure of formula I and II:

##STR00001##

where X is selected from the group consisting of O, S and NH; Y, A and B are independently selected from the group consisting of N and CH; D, E and F are independently selected from the group consisting of CH, N, O and S; the symbol ---- represents a single or a double bond; and R.sub.1, R.sub.2 and R.sub.3 are independently selected from the group consisting of H, electron withdrawing groups and electron releasing groups. In other embodiments, the compounds are used as oxygen scavengers and in barrier compositions and articles.

The present invention relates to a food packaging comprising a polymer composition comprising, a random propylene copolymer and a stabilizing additive mixture, said stabilizing additive mixture comprising a hydroxylamine, a phosphite compound and a hindered amine light stabilizer. In addition, the invention relates to a use of said polymer composition for manufacturing food packaging.

The present invention relates to a food packaging comprising a polymer composition comprising, a random propylene copolymer and a stabilizing additive mixture, said stabilizing additive mixture comprising a hydroxylamine, a phosphite compound and a hindered amine light stabilizer. In addition, the invention relates to a use of said polymer composition for manufacturing food packaging.

This invention relates to the use of ethylene/propylene random copolymers for the production of films having low-haze. In particular, the present invention involves the use of ethylene/propylene random copolymer comprising 90-96.5 wt % propylene and 3.5-10 wt % ethylene demonstrated to have low haze. This invention also relates to an ethylene/propylene random copolymer composition comprising about 3.5-10 wt % ethylene content and about 90-96.5 wt % propylene content, for production of a low-haze film.

This invention relates to the use of ethylene/propylene random copolymers for the production of films having low-haze. In particular, the present invention involves the use of ethylene/propylene random copolymer comprising 90-96.5 wt % propylene and 3.5-10 wt % ethylene demonstrated to have low haze. This invention also relates to an ethylene/propylene random copolymer composition comprising about 3.5-10 wt % ethylene content and about 90-96.5 wt % propylene content, for production of a low-haze film.

A device and method for blowing and stretching a plastic film are provided. A first blow-expanding mechanism subjects a primitive plastic film made of PVC, PLA, or PET to extrusion at a temperature of 140° C.-180° C. and primary blow-expansion to form a volume in which the primitive plastic film has a lateral opening ratio of 1:1. Front-stage press rollers and middle-stage press rollers then subject the primitive plastic film to primary longitudinal press-flattening and pull-stretching, followed by heating and blow-expanding by the second blow-expansion mechanism at a temperature of 160° C.-220° C. and a pressure of 1.1-1.6 atm to achieve a volume in which the primitive plastic film has lateral opening ratio of at least 2:1, further followed by reduction of temperature to a temperature of 10° C.-20° C. for shape fixing to form a shaped plastic film. Finally, rear-stage press rollers subject the shaped plastic film to secondary longitudinal press-flattening and pull-stretching.