Abstract: A barrel includes a number of wood slats that have an inner face, an outer face and side edges, grooves formed in the edges of the slats and keys that join the slats by engaging grooves in the side edges of adjacent slats, and end caps which are affixed to close the ends of the barrel.

Abstract: A barrel includes a plurality of wood slats that have an inner face, an outer face and side edges, grooves formed in the edges of the slats and keys that join the slats by engaging grooves in the side edges of adjacent slats.

Abstract: A barrel includes a plurality of wood slats that have an inner face, an outer face and side edges, grooves formed in the edges of the slats and keys that join the slats by engaging grooves in the side edges of adjacent slats.

Abstract: A barrel includes a plurality of wood slats that have an inner face, an outer face and side edges, grooves formed in the edges of the slats and keys that join the slats by engaging grooves in the side edges of adjacent slats.

Abstract: A conductive component for carrying electrical signals constructed from a molded polymer substrate and a conductive coating adhered to the substrate, the coating defining a continuous electrical pathway between at least two terminals. Preferably, molded plastic such as liquid crystal polymer is formed to make circuits having conductive ink adhered thereto in order to provide inexpensive and versatile printed circuit boards for carrying electrical traces and other components and to provide printed formed contacts. The conductive solderable inks can be adhered to the substrate, for example, via screen printing, brush, spraying, dipping, masking, vacuum plating or vacuum deposition with subsequent oven drying, reflowing in a vapor phase, post curing or plating.

Abstract: A conductive component for carrying electrical signals constructed from a molded polymer substrate and a conductive coating adhered to the substrate, the coating defining a continuous electrical pathway between at least two terminals. Preferably, molded plastic such as liquid crystal polymer is formed to make circuits having conductive ink adhered thereto in order to provide inexpensive and versatile printed circuit boards for carrying electrical traces and other components and to provide printed formed contacts. The conductive solderable inks can be adhered to the substrate, for example, via screen printing, brush, spraying, dipping, masking, vacuum plating or vacuum deposition with subsequent oven drying, reflowing in a vapor phase, post curing or plating.