According to one embodiment, a process for applying an adhesive material onto a barrier sheet substrate is provided. The process includes providing an adhesive material having viscosity of at least about 10,000 centipoise at 250? F. The adhesive material is applied to a multitude of cavities on a surface of a first tool with a coater unit in close proximity to the surface. The adhesive material is transferred from the surface of the first tool to the substrate supported on a surface of a second tool and pressed against the surface of the first tool.

Durable consumable packaging systems for hot melt materials, and particularly asphalt. The packaging system can include an asphalt or asphalt composition contained within a durable consumable wrap or bag without the need for an outer protective container. The durable consumable wrap or bag comprises a woven or non-woven fiber based material, and particularly a spun-bonded olefin material, the olefin material comprising a high density polyethylene (HDPE) material. The durable consumable packaging system provides a simple, cost effective solution to a number of the problems associated with the prior art packaging containers and systems described above, while providing additional benefits to overcome the problems specific with the packaging and transport of asphalt.

An electromagnetic coil with improved insulation properties at high temperatures. A bobbin is insulated by a thin ceramic composite layer that is produced by winding a glass or ceramic fiber over the support structure and impregnating it with a pre-ceramic polymer. The pre-ceramic polymer is then modified to form a ceramic SiO.sub.2 matrix around the fibrous layer. The ceramic matrix secures the glass or ceramic fibers in place and produces a dense layer. A ceramic coated magnet wire is then wound around the insulated support structure. The magnet wire is a conductor that is spiral-wrapped with a glass fiber impregnated with a pre-ceramic polymer.

A sleeve is provided for covering a pipe joint formed between two pipes that are coupled to one another to form a tube. The sleeve comprises a heat-shrinkable material that is configured to conform to the first and second pipes when heated to cover the pipe joint.

A heat-shrinkable polyester film comprising ethylene terephthalate as a main component, containing not less than 0 mol % and not more than 5 mol % of a monomer component capable of serving as an amorphous component relative to the total of a polyester resin component, and having a main shrinkage direction in a lengthwise direction, wherein the heat-shrinkable polyester film satisfies heat shrinkage characteristics of the width direction and the lengthwise direction and the molecular orientation angle difference which is a difference between a molecular orientation angle of an edge of one end in the width direction and a molecular orientation angle of an edge of the other end.

System, method and computer program for edging parts by industrial printing techniques. The system (1) comprises a scanner (3), a control unit (4) and a printing unit (5) that are communicated with each other. The scanner (3) explores an initial surface (6) of the part (2) and generates a captured image (9). The control unit (4) processes the captured image (9) and generates a processed image (13) by the calculation of a mirror image (42). The printing unit (5) receives the processed image (13) and prints it on a second surface (14) of the part (2). The capture and printing surfaces (6, 14) are arranged on different planes, for example, significantly perpendicular planes. Thus, the invention enables the edging of parts by printing, providing visual continuity between both surfaces (6, 14) of the part (2) thanks to the generation of the mirror image (42).

A method for tracking the location of a sewage hose. A sewage main line hose is connected to a sewage truck. A phosphorescent leader hose is connected to the end of the main line hose. A nozzle is connected to the end of the phosphorescent leader hose. The glow of the phosphorescent leader hose is observable in a dark sewage line. The location of the main line hose and the nozzle can be easily determined after observing the glow from the phosphorescent leader hose. In a preferred embodiment the phosphorescent leader hose utilizes europium phosphorescent powder for its phosphorescent properties.

Process for coating a preformed substrate (1), comprising providing a semi-finished product (2) comprising the preformed substrate (1) and a coating layer (3), providing a mould (4) comprising a first (5) and a second half-mould (6), the first half-mould (5) comprising an elastically deformable membrane (8) which at least partially forms a respective conformation surface (7), arranging the semi-finished product (2) on the second half-mould (6), putting under depression a fluid (11) acting on the membrane (8) to maintain the membrane (8) adherent to a main body (50) of the first half-mould, closing the mould (4) maintaining a free distance between the conformation surface (7) of the first half-mould (5) and the semi-finished product (2), pressurizing the fluid (11) to expand the membrane (8) towards the second half-mould (6) for compressing the semi-finished product, maintaining the membrane (8) in the second configuration, heating the semi-finished product (2) for firmly fixing the preformed substrate (1) and the coating layer (3) to each other.

A method for manufacturing an insulation member for a vacuum insulated structure includes the steps of forming a bag that has an opening using a single layer porous fabric, filling the bag with insulation materials via the opening, sealing the opening of the bag, and vibrating the bag to evenly distribute, de-aerate, and densify the insulation material to form a pillow. The method further includes the steps of compressing the pillow within a mold to define a compressed insulation member, and evacuating the compressed insulation member within an insulated structure to define a vacuum insulated structure.

The inventive label is prepared from a polyester with an intrinsic viscosity of 0.58 dl/g or more. The label has a base film with a thickness of 8-30 m and a difference in specific heat capacity Cp between temperatures lower and higher than Tg of 0.2 J/(g.Math. C.) or more. The label has a tensile elongation at break of 5% or more in both a main shrinkage direction and an orthogonal direction. A difference between the absorbancy ratio (absorbancy at 1340 cm.sup.1/absorbancy at 1410 cm.sup.1) in the main shrinkage direction of the label and the absorbancy ratio in the direction orthogonal to the main shrinkage direction of the label is 0.2 or more. The label has a difference between a maximum value and a minimum value of a length in a vertical direction of the label of 3 mm or less.