Abstract:
Disclosed herein is an integrated system armament capable of receiving an inductive charge, the integrated system armament comprising at least one induction energy receiving unit and at least one electrical conductor; wherein the at least one electrical conductor is of an advanced composite material with the advanced composite material having an electrical power management region, an electrical power management sub-region, an advanced composite material forming an electrical power management micro domain, or combinations thereof; and further wherein at least one of the advanced composite material forming electrical conductor(s) further comprises a thermal power management component having a thermal power management region, a thermal power management sub-region, a thermal power management micro domain, or combinations thereof; which in combination provides the integrated system armament. Further disclosed is a method of wirelessly charging an integrated system armament capable of receiving an inductive charge.
Abstract:
The present invention is an article of manufacture comprised of advanced composites having structural, electrical, and thermal characteristics. More specifically, it is an interconnection system that comprises at least one advanced composite material with controlled mechanical, electrical, and thermal properties. When employed in specific configurations and combinations, the subject invention is particularly suited for advanced armaments systems
Abstract:
Disclosed herein is an electrical component including a substrate comprising an electroconductive filler in a first polymeric binder, and a coating layer adhered to at least a portion of the substrate surface, the coating layer comprising a nanostructured electroconductive particulate dispersed in a polymeric binder, such as an epoxy resin. A method of making the component also is disclosed, comprising obtaining a substrate containing an electroconductive filler in a polymeric binder, dispersing a nanostructured electroconductive particulate filler in a liquid that includes a solvent and/or a reactive diluent to form a dispersion, mixing the dispersion with a liquid resin to form a coating mixture, applying the coating mixture to the substrate, and crosslinking the applied coating mixture to form the coated substrate.
Abstract:
Disclosed herein is an electrical component comprising a segment having a diameter in the range of about 1 micrometers to about 10 cm, the segment comprising a plurality of non-metallic, resistive fibers in a non-metallic binder. The segment is precisely trimmed to impart to the segment an electrical resistance within 1% of the desired resistance value. A manufacturing system and methods of manufacturing components having precise specifications also are disclosed.
Abstract:
A coronode charging device includes a support member, a filament, an adjustment mechanism and a voltage source. The lament is disposed along the support member in a configuration that creates a plurality of active regions and a plurality of inactive regions of the filament. The active regions are simultaneously positionable adjacent the photoreceptor. The inactive regions may be farther from the photoreceptor than the active regions. The adjustment mechanism moves the filament such that portions of the filament that correspond to the active regions are moved to positions that correspond to the inactive regions, and some portions of the filament that were in the inactive regions are moved to positions that correspond to the active regions. This operations extends the life of the coronode charging device.
Abstract:
Disclosed herein is a component comprising a substantially homogeneous composition of at least one polymer selected from the group consisting of epoxies, acetals, polyesters, non-ionic rubbers, non-ionic polyurethanes, polyether sulfones, polyether ether ketones, polyether imides, polystyrenes, polyethylene terephthalates, polyamides, polyimides, polyvinylchlorides, polyphenylene oxides, polycarbonates, acrylonitrile-butadiene-styrene terpolymers, silicones, fluropolymers, and polyolefins, a filler, and a metal plating catalyst. A method of making a component also is described comprising obtaining a polymeric material, a liquid, a filler and a metal plating catalyst; combining the metal plating catalyst with the polymeric material, liquid, and filler to form a substantially homogeneous mixture; and evaporating and/or curing the mixture to form a solidified component. The method is useful for making small, precisely engineered, electronic components without requiring the use of caustic solutions or complex equipment.
Abstract:
A microbial fuel cell includes a cell housing having first and second chambers. The first chamber is adapted for containing a fluid including a biomas. The second chamber is adapted for containing an oxygenated fluid. A cathode extends into the cell housing second chamber. An electrode assembly includes a bound segment and an anode segment extending into the cell housing first chamber. The electrode assembly has multiple, substantially aligned, fibers. The outer surfaces of the fibers of the anode segment are adapted for receiving a biofilm. An electrically conductive tubular member envelops the fibers of the bound segment
Abstract:
Disclosed herein is an electrical component comprising a segment having a diameter in the range of about 1 micrometers to about 10 cm, the segment comprising a plurality of non-metallic, resistive fibers in a non-metallic binder. The segment is precisely trimmed to impart to the segment an electrical resistance within 1% of the desired resistance value. A manufacturing system and methods of manufacturing components having precise specifications also are disclosed.
Abstract:
According to various embodiments, exemplary interconnects and methods for interconnection are provided that can include contacts formed by fiber bundles. The exemplary interconnects can be used to form separable or non-separable electro-mechanical connections between one or more of the generally accepted six levels of interconnection. In various embodiments, the exemplary interconnects can allow management of the thermal properties of the electronic devices. Exemplary interconnects can also provided reduced thickness allowing redundancy and additional compliance as desired.
Abstract:
An adhesive having a resin selected from polyvinyl butyral resins, phenolic resins, epoxy resins, and mixtures thereof, and at least one type of filler such as a carbon filler, for use in seaming components useful in electrostatographic, contact electrostatic, digital and other like machines.