What is described is a method for manufacturing a profile element for sealing building-structure joints, especially for sealing against sound and smoke and optionally against fire, to an apparatus for manufacturing such a profile element and to the use of the profile element manufactured according to the invention for the acoustic, smokeproof and/or fireproof sealing of connecting joints in drywalls, especially of expansion joints. In particular, an improved method is described for continuous and endless manufacture of such a profile element.

A package in the form of a pouch comprises a first flexible sheet part 6 and a second flexible sheet part 7. The pouch comprises a first permanent seal 14 between the first sheet part 6 and the second sheet part 7 along a first edge 12 of the pouch. The pouch comprises a second permanent seal 15 between the first sheet part 6 and the second sheet part 7 along a second edge 13 of the pouch opposite to the first edge 12. The pouch comprises a first temporary seal 16 between the first sheet part 6 and the second sheet part 7, the first temporary seal 16 extending across the pouch between the first permanent seal 14 and the second permanent seal 15. The pouch comprises a second temporary seal 17 between the first sheet part 6 and the second sheet part 7, the second temporary seal 17 extending across the pouch between the first permanent seal 14 and the second permanent seal 15. The pouch comprises a first compartment 20 bounded by the first sheet part 6, the second sheet part 7, the first permanent seal 14, the second permanent seal 15 and the first temporary seal 16 and a second compartment 21 bounded by the first sheet part 6, the second sheet part 7, the first permanent seal 14, the second permanent seal 15, the first temporary seal 16 and the second temporary seal 17.

A method for manufacturing a composite product includes folding a first layer of material to create a first folded layer having a first and a second superposed portion extending from a respective first and second free end to a first bend, folding a second layer of material in order to create a second folded layer having a third and a fourth superposed portion extending from a respective third and fourth free end to a second bend, laying the first folded layer over a first element with the first portion in contact with the first element, laying the second folded layer over the first folded layer laying a second element over the second folded layer, compressing the plurality of the fiber layers by either vacuum or gravity, pulling two free ends of the first folded layer and of the second folded layer in order to let them contact each other.

A battery assembly includes a battery array and a foam shell that surrounds the battery array. The battery array may be housed within a foam shell, and a barrier can be secured to the foam shell to establish a battery assembly. The battery assembly may then be secured to a vehicle body.

A method for producing a hybrid composite component from organo sheets and a metallic reinforcing element in such a way that the method may be inexpensively and simply performed and the hybrid composite component has the lowest possible weight and may absorb relatively high forces.

A thin-walled polypropylene product display tube. The thin-walled polypropylene product display tube includes a tubular member having a closed end, an open end, an inner diameter and, between the closed end and the open end, a first outer diameter, the open end terminating in a flared portion having a second outer diameter, the tubular member having a wall thickness sufficient to yield a level of haze equal to or less than 8%. A process for forming a thin-walled polypropylene product display tube is also provided.

The disclosure discloses a vehicle interior panel for covering an airbag and a method of fabricating a vehicle interior panel for covering an airbag. The vehicle interior panel includes a substrate with an opening, a chute channel assembly inserted into the opening, a surface skin, and a foam layer disposed between the surface skin and the substrate. The chute channel assembly includes a wall section surrounding a chute channel for the airbag and a cover plate covering the chute channel and closing the opening. The cover plate includes an airbag door, wherein an outer surface of the cover plate is in contact with the foam layer. The outer surface of the cover plate has a rough surface structure, the outer surface having a surface roughness parameter R.sub.a of at least 4 m.

The invention relates to a heating apparatus (H) having at least one heating line (24) for the thermal conditioning of preforms (1) made of thermoplastic material to a temperature profile which is suitable for blow shaping, wherein the heating apparatus (H) comprises a transport device for transporting the preforms (1) along a transport path (T) of the heating apparatus (H), said transport device comprising a revolving conveyor chain (F) having a plurality of pivotably interconnected chain links (33), and wherein the transport device comprises handling means (39) for holding and manipulating a single preform (1) each, wherein the transport device is embodied and configured such that the preforms (1) are guided in a single row in at least a first section of the transport path (T), and are guided in two adjacent rows in at least a second section of the transport path (T), and wherein each chain link (33) comprises a bracket (41) on which a first handling means (39) and a second handling means (39) are arranged, and wherein the bracket (41) comprises a main arm (42) and a pivot arm (43), pivotably connected to the main arm (42), and wherein a change between a single-row transport of the preforms (1) and a double-row transport is enabled by pivoting the pivot arm (43).

A cell in which thermal welding of a laminate packaging is performed so that the thickness of a thermal welded portion including an electrode terminal is larger than that of a thermal welded portion including no electrode terminal.

The present disclosure pertains to the construction of handgrips and the method of assembly onto a handlebar. In one disclosed embodiment, the handgrip comprises a substrate configured to receive a clamp, and a guard configured to protect the clamp. Further, the handgrip comprises an overmold grip configured to conceal the clamp and guard and also receive the hand of an operator or user. The clamp is engaged onto the handlebar and acts as a coupling mechanism so that the handgrip is more easily removable from handlebar. Among other things, the present disclosure solves problems related to manufacturing and assembly.