The subject matter of the present invention is a process for preparing polyamide granules having heat-resistance properties, and also the use of these granules, in particular in the aid of the manufacture of yarns for airbags or for tyre cords. More specifically, the invention relates to a process for preparing polyamide granules having heat-resistance properties by wet impregnation of the granules with an aqueous solution comprising at least one heat stabilizer.

The present invention relates to a method for packaging fruits and vegetables by means of a film endowed with specific permeability and light transmittance properties.

A biodegradable sampling bag for containing samples or the like, comprises a flexible enclosure defining a chamber adapted to contain therein the sample, the flexible enclosure being made of a plastic material, which contains an additive that renders the flexible enclosure biodegradable when exposed for a sufficient period of time to microbial action. The additive is adapted to enable microorganisms to metabolize the molecular structure of said flexible enclosure. The additive is effective in altering the polymer chain of the plastic material to allow microbial action of a suitable environment to colonize in and around the plastic material, whereby microbes can then form a biofilm on a surface of the flexible enclosure and secrete acids which break down the entire polymer chain. The flexible enclosure, when exposed to microbial action, is adapted to withstand biodegradation for a given period of time, typically of at least three months.

The present invention provides an elastomeric composition for making elastomeric articles having at least one layer, such as but not limited to condoms, which have a deformation stress or modulus below about 1.5 MPa at 500% extension, comprising at least one polymeric material, at least one plasticizer and optionally at least one coating. The elastomeric articles also have unique tactile and tensile properties, such as conformability and low radius of curvature.

The present disclosure relates generally to polymer-based tubing, suitable, for example, for conducting hydrocarbon fuels. The present disclosure relates more particularly to multi-layered tubings that are fuel resistant, flexible, and cost effective.

A method for increasing the fatigue strength of a tubular semifinished product for a medical implant, such as a stent or a cardiac valve, which includes providing a tubular semifinished product formed from a bioresorbable magnesium alloy, iron, or an iron-based alloy; and applying pressure at a temperature equal to, or less than, 420 C., internally against an inner surface of the tubular semifinished product such that the outer circumference of the tubular semifinished product is subject to plastic deformation by at least 0.2%.

Propylene polymer based packaging films for encapsulating hot melt adhesives are disclosed. The packaging films are readily miscible with the various hot melt adhesive chemistries during the melting stage without deleteriously affecting the adhesive properties, making the packaging film particularly well suited for packaging hot melt adhesives in a pillow, cylinder, pouch, block, cartridge and like forms.

A method for increasing the fatigue strength of a tubular semifinished product for a medical implant, a tubular semifinished product for a medical implant having improved fatigue strength, and a medical implant produced from such a semifinished product.

The present invention relates to a method for packaging a compressible product in a compressed state, comprising the step of sealing at least two parts of a polymeric machine direction oriented (MDO) film which encloses at least part of the compressible product in the compressed state, characterized in that the seal has a seal elongation at failure of about 20% to about 100%, as measured in accordance with ASTM F88/F88M-09. The present invention also relates to a compressible product in a compressed state packaged in a polymeric MDO film which encloses at least part of the compressible product, wherein at least two parts of the MDO film are sealed and characterized in that the seal has a seal elongation at failure of about 20% to about 100%, as measured in accordance with ASTM F88/F88M-09.

Methods of enhancing one or more physical properties of a thermoplastic film include incrementally stretching thermoplastic films in the machine direction and/or transverse direction. In one or more implementations, methods of incrementally stretching thermoplastic films include reducing the gauge of the films without reducing the films' machine-direction tear resistance. The methods can involve cold stretching the films and imparting rib patterns into the film. The linear ribs can have alternating thick and thin gauges. Incrementally stretched thermoplastic films can have a machine-direction tear resistance that is approximately equal to or greater than the machine-direction tear resistance of the film prior to stretching.