A method for use in ply compaction in forming a composite structure. The method includes positioning a ply of material on a forming tool having a web surface and at least one flange surface extending from the web surface, positioning a chassis at a first location along a length dimension of the forming tool, selectively rotating a flange forming device, that is coupled to the chassis, about a yaw axis based on a relative orientation of the flange forming device to the at least one flange surface, applying, with the flange forming device, the ply of material onto the forming tool, moving the chassis relative to the forming tool to position the chassis at a second location along the length dimension of the forming tool, and repeating the selective rotation and the application steps at the second location.

Packaging systems with a rotatable table top held by a rotatable column, a plurality of circumferentially spaced apart clipper assemblies held at respective clipper stations provided by the rotatable table top, plurality of spaced apart pneumatic valves under the table top in fluid communication with the clipper assemblies, and at least one of: (a) a clipper reset cam assembly held under the rotatable table top with first and second reset cams cam that selectively automatically engage the pneumatic valves as the table rotates; and (b) a clipper trigger cam assembly held under the rotatable table top circumferentially spaced apart from the clipper reset cam assembly with first and second trigger cams that selectively automatically engage the pneumatic valves as the table rotates.

Packaging systems with a rotatable table top held by a rotatable column, a plurality of circumferentially spaced apart clipper assemblies held at respective clipper stations provided by the rotatable table top, plurality of spaced apart pneumatic valves under the table top in fluid communication with the clipper assemblies, and at least one of: (a) a clipper reset cam assembly held under the rotatable table top with first and second reset cams cam that selectively automatically engage the pneumatic valves as the table rotates; and (b) a clipper trigger cam assembly held under the rotatable table top circumferentially spaced apart from the clipper reset cam assembly with first and second trigger cams that selectively automatically engage the pneumatic valves as the table rotates.

Apparatus, systems, devices, methods with thin walled sizing mandrels that are capable of packaging low temperature explosives emulsions at high volumes and lower pressures. The packaging systems can include a rotating table having a vertical column comprising a plurality of circumferentially spaced apart clippers; a pump; and a tubular sizing mandrel in fluid communication with the pump. The tubular sizing mandrel has a downstream end segment that merges into a segment with a plurality of radially spaced apart, longitudinally extending flat outer surfaces, the flat surfaces can be bounded laterally (circumferentially) by chamfered edges.

Apparatus, systems, devices, methods with thin walled sizing mandrels that are capable of packaging low temperature explosives emulsions at high volumes and lower pressures. The packaging systems can include a rotating table having a vertical column comprising a plurality of circumferentially spaced apart clippers; a pump; and a tubular sizing mandrel in fluid communication with the pump. The tubular sizing mandrel has a downstream end segment that merges into a segment with a plurality of radially spaced apart, longitudinally extending flat outer surfaces, the flat surfaces can be bounded laterally (circumferentially) by chamfered edges.

A method for producing a tube skirt for a flexible tube, said tube skirt being manufactured from a flat strip 1 comprising a decorative film 15 superimposed on a primary film 16, said primary film 16 comprising a sealable inner layer 14 at the lower surface 20 of the strip 1 as well as two stabilizing layers 11, 13, said decorative film 15 comprising a sealable outer layer 7 at the upper surface 19 of the strip 1, and a decorative layer 8, 9. This method comprises the following steps: winding the flat strip 1 into the form of a sleeve to shape the tube skirt; superimposing a first side border 2 of the strip 1 on a second side border 2 of the strip 1 to form an overlapping area 3, the sealable inner layer 14 of the primary film 16 of the first side border 2 overlapping the sealable outer layer 7 of the decorative film 15 of the second side border 2; applying a heating temperature T2 to the inside of the tube skirt at the inner face 22 of the overlapping area 3 to produce the side weld of the tube skirt; simultaneously with the application of the heating temperature T2, applying compression between the outer 21 and inner 22 faces of the overlapping area 3 so as to finalize the side weld of the tube skirt.

A method for producing a tube skirt for a flexible tube, said tube skirt being manufactured from a flat strip 1 comprising a decorative film 15 superimposed on a primary film 16, said primary film 16 comprising a sealable inner layer 14 at the lower surface 20 of the strip 1 as well as two stabilizing layers 11, 13, said decorative film 15 comprising a sealable outer layer 7 at the upper surface 19 of the strip 1, and a decorative layer 8, 9. This method comprises the following steps: winding the flat strip 1 into the form of a sleeve to shape the tube skirt; superimposing a first side border 2 of the strip 1 on a second side border 2 of the strip 1 to form an overlapping area 3, the sealable inner layer 14 of the primary film 16 of the first side border 2 overlapping the sealable outer layer 7 of the decorative film 15 of the second side border 2; applying a heating temperature T2 to the inside of the tube skirt at the inner face 22 of the overlapping area 3 to produce the side weld of the tube skirt; simultaneously with the application of the heating temperature T2, applying compression between the outer 21 and inner 22 faces of the overlapping area 3 so as to finalize the side weld of the tube skirt.

The invention relates to a can containing a liquid and/or a gaseous medium which has positive pressure or develops such during transport or storage, wherein the cylindrical can shell of the can consists mainly of paper or cardboard material and is closed at the bottom with a bottom element and at the top with a cover element, wherein the can withstands an internal pressure of at least 5 bar, wherein the innermost layer of the can shell consists of a straight-wound barrier layer having a longitudinally extending folded seam, wherein the barrier layer is a prefabricated laminate made of an inner diffusion-tight barrier film or an inner diffusion-tight barrier laminate and an outer kraft paper layer.

Packaging apparatus for producing encased products from flat-roll stock using an external user interface (i.e., a handle that is external to a housing holding the heat seal assembly that is attached to a horizontally oriented shaft that rotates a first gear in the housing to rotate an aligned second gear in the housing or an electronic control) that is attached to and/or in communication with (directly or indirectly) a heat-seal assembly with a heat-seal contact member, such as a heat-seal band, in the housing to allow a user to adjust a vertical height of the heat-seal assembly while the apparatus is operational and/or without requiring physical access to the interior of the housing.

Packaging apparatus for producing encased products from flat-roll stock using an external user interface (i.e., a handle that is external to a housing holding the heat seal assembly that is attached to a horizontally oriented shaft that rotates a first gear in the housing to rotate an aligned second gear in the housing or an electronic control) that is attached to and/or in communication with (directly or indirectly) a heat-seal assembly with a heat-seal contact member, such as a heat-seal band, in the housing to allow a user to adjust a vertical height of the heat-seal assembly while the apparatus is operational and/or without requiring physical access to the interior of the housing.