Abstract: A wall-mounted back massager adapted to allow a user to self-administer a massage is disclosed. The inventive wall-mounted back massager comprises: an elongated wall mount track vertically positioned on a wall; a vertically adjustable elongated base member slidably engaged to the wall mount track; a plurality of swivel head assemblies attached in series along the elongated base member; and at least first and second pairs of spaced apart and axially aligned wheels rotatably attached to each of the plurality of swivel head assemblies by respective first and second wheel axles. Each swivel head assembly is pivotably between first and second swivel head positions. In this configuration, vertical movement of a person's back due to bending and straightening of their knees effects movement of the swivel head assemblies and attached wheels relative to the person's back, thereby allowing the person to enjoy a self-administered massage.

Abstract: The invention disclosed herein relates to hollow fiber reinforced composite material parts having one or more selectively positioned core, structural insert, or veneer pieces integrally associated therewith.

Abstract: The present invention is directed to an inside corner framing element for supporting wallboard at the intersection of two adjoining walls made from sheet metal framing members. The inside corner framing element may be characterized as either: (1) an elongated sheet metal strip bent lengthwise two times to define a truncated W-shaped cross-sectional profile with at least one linear receiving slot positioned at an end of the elongated sheet metal strip; or (2) an elongated sheet metal strip bent lengthwise three times to define a W-shaped cross-sectional profile with at least one linear receiving slot positioned at an end of the elongated sheet metal strip.

Abstract: A solid state foaming process permits the use of up to 100% recycled pre- and post-consumer polymer for the manufacture of foamed polymer material and thermoformed foamed polymer articles. The process enables the optional formation of integral unfoamed skins of controllable depth and crystallinity on foamed polymeric materials suitable for a wide variety of applications. Because this process does not alter the underlying chemistry of the material all scrap from the manufacturing process may be reused without additive to form new foamed polymeric materials and articles.

Abstract: A method for making partially popped popcorn from hulled corn kernel is provided. A hulled corn comprising a pericarp structure and interior endosperm having an internal moisture content is modified, such as by boiling, soaking or steaming, to achieve a predetermined moisture content sufficient to inhibit but not prevent popping of the kernel. The modified kernel is exposed to a heated environment, such as a hot air popper, until the modified endosperm expands and ruptures the endosperm, resulting in a partially popped kernel.

Abstract: This invention provides packages and containers produced by a solid state method for the manufacture of foamed polymeric material. The packages are suitable for pre-cooking or sterilization, insulated transport, cooking vessel, reheating, and storage of food. The gas impregnated thermoforming (GIT) process includes interleaving an article of raw polymeric material with a gas channeling means; exposing the article to a non-reacting gas at elevated pressure to achieve a desired concentration of gas within the polymer, thereby forming a partially gas-saturated article, separating it from the gas channeling means, then decompressing, foaming and forming it at a temperature below the material's melt temperature; and finally trimming it to produce a finished foamed polymeric material and recyclable scrap solid state process foamed polymer.

Abstract: A slotted M-track or building wall support structure generally characterized by a metal M-shaped channel beam member is disclosed. The M-shaped channel beam member is defined by a pair of elongated confronting sidewalls integrally connected to an open end of an elongated and generally V-shaped stud receiving track. The V-shaped stud receiving track is positioned between the pair of confronting sidewalls and a pair of elongated and spaced apart coplanar legs. The legs are perpendicularly connected to the sidewalls and to the open end of the generally V-shaped stud receiving track. The V-shaped stud receiving track includes a plurality of longitudinally spaced slots, with each slot sized and configured to receive a stud.

Abstract: The invention herein disclosed is, in one embodiment, directed to a stringed musical instrument (e.g., a zither) that comprises a body; a plurality of laterally spaced apart tensioned strings connected to said body; axially spaced apart string supports below the strings, said strings contacting the string supports and having span regions spanning between the string supports; and a presser for each string, each presser in contact with the span region of its string, and each presser being movable laterally to displace the span region of its string and increase the tension in its string, and being movable laterally away from the span region of its string for releasing its string and lessening the tension in its string.

Abstract: The synthetic closures disclosed herein are made from novel compositions that comprise a thermoplastic elastomer, polypropylene, a foaming agent, and a plurality of gas-encapsulating thermoplastic microspheres. Without necessarily prescribing to any scientific theory, it is believed that the gas-encapsulating thermoplastic microspheres in combination with the other ingredients provide a feed material especially useful for manufacturing synthetic closures having an appropriate combination of physical properties like, for example, density, oxygen permeability, hardness, extraction or removal force, compression percent recovery (over selected periods of time), and compression force (to compress closure to a smaller diameter).

Abstract: The disclosed invention relates to masked silicon structures and methods for making porous silicon in selected areas of a silicon substrate via anodic etching. The masked silicon structures comprise: (1) a frontside barrier layer; and (2) a backside opaque ohmic contact layer. The frontside barrier layer includes a plurality of discrete barrier openings bounded by a contiguous frontside portion of the barrier layer, thereby defining a first aperture having a first shape and a first center point. The backside opaque ohmic contact layer includes a second aperture bounded by a contiguous backside portion of the ohmic contact layer, thereby defining a second aperture having a second shape and a second center point. The first and second center points share a perpendicular axis. The first shape is substantially the same as the second shape but slightly larger, and is trans-concentrically positioned relative to the second shape about the shared axis.

Abstract: Fuels cells, electrode assemblies, and electrodes that comprise silicon and/or sol-gel derived support structures, as well as to methods relating thereto, are disclosed herein. In one embodiment, the invention is directed to an electrode assembly adapted for use with a fuel cell comprises: an anode derived from a first planar silicon substrate; an electrolyte; a cathode derived from a second planar silicon substrate; wherein the anode and the cathode are parallel to each other and separated by an interstitial region comprising the electrolyte. In another embodiment, the invention is directed to electrode adapted for use with a fuel cell, wherein the electrode comprises a silicon substrate that functions as a current conductor, wherein the silicon substrate has a plurality of pores that define pore surfaces, wherein at least a portion of the pore surfaces have a catalyst thereon, wherein the catalyst is derived from one or more metallic precursors chemisorbed onto at least the pore surfaces.

Abstract: The present invention discloses porous fuel cell electrode structures, assemblies, and systems having one or more conformal metallic layers selectively deposited on one or more pore surfaces, as well as to various methods relating thereto. In one embodiment, the present invention is directed to an electrode structure adapted for use with a fuel cell system (e.g., a hydrogen or a direct hydrocarbon fuel cell system), wherein the electrode structure comprises a substrate or support structure having one or more discrete porous bulk matrix regions disposed across a top surface of the substrate. In this embodiment, each of the one or more discrete porous bulk matrix regions is defined by a plurality of acicular pores that extend through the substrate or support structure. The plurality of acicular pores define inner pore surfaces, and the inner pore surfaces have a conformal electrically conductive layer thereon, as well as a plurality of catalyst particles.

Abstract: Inventions relates to scintillation substances and they may be utilized in nuclear physics, medicine and oil industry for recording and measurements of X-ray, gamma-ray and alpha-ray, nondestructive testing of solid states structure, three-dimensional positron-emission tomography and X-ray tomography and fluorography. Substances based on silicate comprising lutetium and cerium characterized in that compositions of substances are represented by chemical formulae CexLu2+2y?xSi1?yO5+y, CexLiq+pLu2?p+2?y?x?zAzSi1?yO5+y?p, CexLiq+pLu9.33?x?p?z?0.67AzSi6O26?p, where A is at least one element selected from group consisting of Gd, Sc, Y, La, Eu, Tb, x is value between 1×10?4 f.units and 0.02 f.units., y is value between 0.024 f.units and 0.09 f.units, z is value does not exceeding 0.05 f.units, q is value does not exceeding 0.2 f.units, p is value does not exceeding 0.05 f.units.

Abstract: Disclosed herein are fuel cell systems and, more specifically, fuel cell electrode pair and stack assemblies and various methods relating thereto.

Abstract: Reactant supply and effluent storage cartridges adapted for use with a closed liquid feed fuel cell system, as well as closed liquid feed fuel cell systems. The cartridge includes at least first and second volumes and comprises: a first reactant reservoir for holding a first reactant, the first reactant reservoir being configured to occupy substantially all of the first volume when filled with the first reactant; a second reactant reservoir for holding a second reactant, the second reactant reservoir being configured to occupy substantially all of the second volume when filled with the second reactant; and an effluent reservoir for holding effluent produced by the fuel cell system, the effluent reservoir being configured to occupy, when filled with the effluent produced by the fuel cell system, a portion of the first volume, a portion of the second volume, or a portion of the first and second volumes. The reactant supply cartridge of may further comprise an electrolyte reservoir for holding an electrolyte.

Abstract: Hydrodynamic transport and flow channel passage structures associated with fuel cell electrode structures and fuel cell electrode stack assemblies, as well as to methods relating thereto, are disclosed. More specifically, the present invention is directed to a novel fluid delivery and removal channel passage structures integrally associated with electrode structures adapted for use within a fuel cell system.

Abstract: The present invention discloses a heel shim and lifter assembly adapted for use in ski mountaineering. In one embodiment, the heel shim and lifter assembly is adapted for use with a ski such as, for example, a telemark ski, and comprises: a mounting plate for attaching the heel shim and lifter assembly onto the ski; and a heel shim block or component that is pivotably connected to the mounting plate. In this embodiment, the heel shim block or component is pivotably connected to the mounting plate along an axis of rotation that runs perpendicular to the longitudinal axis of the ski and parallel to the top surface of the ski when the heel shim and lifter assembly is attached onto the ski, and wherein the heel shim block is pivotable between a heel shim skiing position and an elevated hiking position when the heel shim and lifter assembly is attached onto the ski.

Abstract: Fuels cells, electrode assemblies, and electrodes that comprise silicon and/or sol-gel derived support structures, as well as to methods relating thereto, are disclosed herein. In one embodiment, the invention is directed to an electrode assembly adapted for use with a fuel cell comprises: an anode derived from a first planar silicon substrate; an electrolyte; a cathode derived from a second planar silicon substrate; wherein the anode and the cathode are parallel to each other and separated by an interstitial region comprising the electrolyte. In another embodiment, the invention is directed to electrode adapted for use with a fuel cell, wherein the electrode comprises a silicon substrate that functions as a current conductor, wherein the silicon substrate has a plurality of pores that define pore surfaces, wherein at least a portion of the pore surfaces have a catalyst thereon, wherein the catalyst is derived from one or more metallic precursors chemisorbed onto at least the pore surfaces.

Abstract: Disclosed herein are fuel cell systems and, more specifically, fuel cell electrode pair and stack assemblies and various methods relating thereto.