Fluid delivery systems comprising catheters used to deliver a fluid into a medical device to which the catheter is attached. Methods and devices for eliminating the effects angular strain on the catheters that lead to kinking and pinching of the catheter.

A method for sealing a telecommunications product is disclosed. The method includes securing a telecommunications product to an apparatus having heat blasters, and initiating a heat sealing operation that includes moving the heat blasters along a first plane toward a shrink wrap tubing until the heat blasters surround the shrink wrap tubing; delivering hot air from each heat blaster; and moving the heat blasters along a second plane along a predetermined length of the shrink wrap tubing, the second plane being orthogonal to the first plane.

A method for sealing a telecommunications product is disclosed. The method includes securing a telecommunications product to an apparatus having heat blasters, and initiating a heat sealing operation that includes moving the heat blasters along a first plane toward a shrink wrap tubing until the heat blasters surround the shrink wrap tubing; delivering hot air from each heat blaster; and moving the heat blasters along a second plane along a predetermined length of the shrink wrap tubing, the second plane being orthogonal to the first plane.

A method of installing a heat shrink cover around a component includes providing the heat shrink cover having an inner sleeve and an outer sleeve, the inner sleeve is a heat shrink sleeve, and attaching an electrical heating system to an outer surface of the outer sleeve. The inner sleeve and the outer sleeve are arranged around the component, with the outer sleeve at least partially encompassing the inner sleeve. The electrical heating system is energized to heat-recover the inner sleeve.

A method of installing a heat shrink cover around a component includes providing the heat shrink cover having an inner sleeve and an outer sleeve, the inner sleeve is a heat shrink sleeve, and attaching an electrical heating system to an outer surface of the outer sleeve. The inner sleeve and the outer sleeve are arranged around the component, with the outer sleeve at least partially encompassing the inner sleeve. The electrical heating system is energized to heat-recover the inner sleeve.

A heat-shrinkable plastic element that can notably improve insertability of a preform is provided. The heat-shrinkable plastic element is disposed on at least part of the outside of a preform, the preform including a mouth part, a body part linked to the mouth part, and a bottom part linked to the body part, the heat-shrinkable plastic element including: at least a layer containing (A) an ionomer resin and (B) an olefin resin as essential constituents, wherein the heat-shrinkable plastic element has a storage modulus at 25° C. of at least 4.0×10.sup.8 Pa, and the dynamic friction coefficient between the heat-shrinkable plastic element and the preform is at most 1.1.

A heat-shrinkable plastic element that can notably improve insertability of a preform is provided. The heat-shrinkable plastic element is disposed on at least part of the outside of a preform, the preform including a mouth part, a body part linked to the mouth part, and a bottom part linked to the body part, the heat-shrinkable plastic element including: at least a layer containing (A) an ionomer resin and (B) an olefin resin as essential constituents, wherein the heat-shrinkable plastic element has a storage modulus at 25° C. of at least 4.0×10.sup.8 Pa, and the dynamic friction coefficient between the heat-shrinkable plastic element and the preform is at most 1.1.

There is provided a polarizing plate excellent in durability. A method of producing a polarizing plate according to an embodiment of the present invention includes: preparing a polarizing film laminate including a polarizer and a protective film arranged on at least one side of the polarizer; and shrinking the polarizing film laminate.

There is provided a polarizing plate excellent in durability. A method of producing a polarizing plate according to an embodiment of the present invention includes: preparing a polarizing film laminate including a polarizer and a protective film arranged on at least one side of the polarizer; and shrinking the polarizing film laminate.

A method for creating an opening in a sheath, made of stretch film, that retains a goods stack arranged on a pallet. The pallet comprising an upper-side deck surface as support for the goods stack and lower-side support feet. The sheath engages under the support feet arranged in the region of the four outer edges of the pallet. At least one opening is in the sheath between two support feet . At least one opening is generated such that the sheath is first heated, the heated sheath is retracted from the pallet and then, still in the heated state, displaced upward. The upwardly displaced sheath is secured in its upwardly displaced position by cooling. The invention also relates to a shaping apparatus, and additionally to at least one heating device for carrying out the method.