An oriented film or a shrink film comprising a polyester composition which comprises at least one polyester which comprises: a dicarboxylic acid component comprising: about 90 to about 100 mole % of terephthalic acid residues; about 0 to about 10 mole % of aromatic and/or aliphatic dicarboxylic acid residues having up to 20 carbon atoms; and a glycol component comprising: about 10 to about 29 mole % 2,2,4,4-tetramethyl-1,3-cyclobutanediol residues; and about 71 to about 90 mole % ethylene glycol residues; and optionally, diethylene glycol residues; wherein the total mole % of the dicarboxylic acid component is 100 mole %, and wherein the total mole % of the glycol component is 100 mole %; wherein the inherent viscosity of the polyester is from 0.50 to 0.8 dL/g.

An unpacking system having a folding-out device for folding outwards an initially folded-in packaging portion of an item of packaging for an object, and having a stretching device for stretching an item of packaging for an object. The item of packaging herein is in particular a pouch, and the object is in particular a pharmaceutical or cosmetic object. The unpacking system furthermore has a transportation installation for transporting the object in a transportation direction. The packaging portion in the stretching device is stretched parallel with the transportation direction. A filling system is disclosed having such an unpacking system, and methods are disclosed for folding outwards, for stretching, and for unpacking.

Thermoplastic films and bags include gradient patterns of post-formation deformations. The gradient patterns of post-formation deformations can provide a connotation of strength. Additionally, the gradient pattern of post-formation deformations can provide different areas of the films or bags with different physical characteristics such as tear resistance, puncture resistance, elasticity, etc.

A biaxially oriented polyester film having the following physical property is provided: when cooled from the molten state at a cooling rate of 20° C/min, an observed recrystallization temperature is 175° C-200° C. The biaxially oriented polyester film is formed by a thick sheet before bidirectional stretching that is melted and extruded by an extruder and then cooled and formed on a casting roll. The thick sheet before stretching having the following physical property as analyzed by differential scanning calorimetry: a crystallization rate is less than 10%.

A biaxially oriented polyester film having the following physical property is provided: when cooled from the molten state at a cooling rate of 20° C/min, an observed recrystallization temperature is 175° C-200° C. The biaxially oriented polyester film is formed by a thick sheet before bidirectional stretching that is melted and extruded by an extruder and then cooled and formed on a casting roll. The thick sheet before stretching having the following physical property as analyzed by differential scanning calorimetry: a crystallization rate is less than 10%.

A device and a method for extending a film web along a longitudinal direction thereof include guiding the film web in a travel direction over several rollers, and extending the film web in at least one straining gap which is limited by at least two rollers operated with different circumferential speeds. The web is provided with a temperature gradient, which extends in the direction perpendicular relative to the longitudinal axis of the film web.

A device and a method for extending a film web along a longitudinal direction thereof include guiding the film web in a travel direction over several rollers, and extending the film web in at least one straining gap which is limited by at least two rollers operated with different circumferential speeds. The web is provided with a temperature gradient, which extends in the direction perpendicular relative to the longitudinal axis of the film web.

The present invention achieves higher performance (improvement in, for example, heat resistance, durability, and mechanical characteristics) of polyamide resin by a method which is not dependent on a combination with fibers. According to an embodiment of a polyamide resin member of the present invention, the polyamide resin member contains nano-oriented crystals of polyamide 66, and has a high heatproof temperature (T.sub.h≈278° C.) and a high melting point (T.sub.m≈282° C.).

A film is manufactured from a semi-crystalline plastics material by a method with multiple steps. In step a, the film is shaped using a calender, in which a melt coming from a slotted nozzle is introduced into a nip between two cooling or calibrating rollers. The film is calendered between the two cooling or calibrating rollers. In step b, The film is cooled in a cooling section, which has roller pairs arranged one after the other. A film temperature is changed by changing a temperature of downstream rollers, thereby achieving a maximum number of crystallization nuclei. The film temperature is detected using sensors. In step c, the film is cooled down further to a film temperature that allows the film to be spooled. The temperature of the film is kept in a defined temperature range between 128° C. and 138° C. in step b), thereby preventing the automatic formation of further crystals.

A film is manufactured from a semi-crystalline plastics material by a method with multiple steps. In step a, the film is shaped using a calender, in which a melt coming from a slotted nozzle is introduced into a nip between two cooling or calibrating rollers. The film is calendered between the two cooling or calibrating rollers. In step b, The film is cooled in a cooling section, which has roller pairs arranged one after the other. A film temperature is changed by changing a temperature of downstream rollers, thereby achieving a maximum number of crystallization nuclei. The film temperature is detected using sensors. In step c, the film is cooled down further to a film temperature that allows the film to be spooled. The temperature of the film is kept in a defined temperature range between 128° C. and 138° C. in step b), thereby preventing the automatic formation of further crystals.