Abstract: A multi-position hook assembly for use in a tool that includes a hook having a first leg and a second leg joined by a top span member, and a mounting member configured for slidably receiving the top span member and releasably locking the hook in a plurality of positions.

Abstract: The invention relates to nucleic acids encoding a p-coumaroyl-CoA:monolignol transferase and to inhibitory nucleic acids adapted to inhibit the expression and/or translation of a p-coumaroyl-CoA:monolignol transferase RNA. Inhibition of p-coumaroyl-CoA:monolignol transferase in plants improves the incorporation of monolignol ferulates into the lignin of plants, giving rise to plant biomass that is more easily processed into useful products such as paper and biofuels.

Abstract: Methods and apparatus to control a weld current amperage are disclosed. A disclosed example method includes identifying an amperage parameter of a welding device, determining a voltage set point based on the amperage parameter and a voltage correction factor, outputting weld current based on the amperage parameter and the voltage set point, comparing a measured voltage corresponding to the weld current to a threshold, and when the measured voltage satisfies the threshold, and adjusting an amperage of the weld current based on the amperage parameter, the voltage set point, and the measured voltage using a first amperage-voltage relationship.

Abstract: The present invention relates to a one-component processing method and system for preparing polyurea materials. This method and system involves a polymerization process using cyclic oligomeric polyurea precursors. These cyclic oligomeric precursors have dynamic urea bonds such as hindered urea bonds (HUBs). These cyclic oligomeric precursors exhibit dynamic properties to reversibly dissociate in situ yielding isocyanate and amine components which polymerize to yield the polyureas, such as linear, branched or cross-linked polyureas. This method and system has advantages over conventional methods that utilize two-component systems. Such two-component systems require the segregation of the isocyanate and amine components to prevent premature or too rapid polymerization. The resulting polyureas are useful for a variety of applications including coatings.

Abstract: A welding system includes one or more sensors configured to detect data relating to one or more arc parameters for the welding system during a weld performed by the welding system. The welding system also includes control circuitry configured to receive the data corresponding to the one or more arc parameters from the one or more sensors, time synchronize the data corresponding to the one or more arc parameters with data relating to one or more welding parameters over a time period for the weld, present the data corresponding to the one or more arc parameters graphically over the time period via a user-viewable screen during the weld, and present the data corresponding to the one or more welding parameters graphically over the time period via the user-viewable screen during the weld.

Abstract: A mechanically robust flexible hybrid electrode comprises a polymeric substrate, one or more monolayers of a two-dimensional (2D) material on the polymeric substrate, and an electrically conductive film on the 2D material. The mechanically robust flexible hybrid electrode may exhibit a bending strain to failure of at least about 12%. A method of making a flexible hybrid electrode may comprise transferring a monolayer comprising a 2D material to a polymeric substrate. After transferring one or more of the monolayers to the polymeric substrate, an electrically conductive film may be formed on the one or more monolayers, thereby forming a mechanically robust flexible hybrid electrode.

Abstract: Provided are optical devices and systems fabricated, at least in part, via printing-based assembly and integration of device components. In specific embodiments the present invention provides light emitting systems, light collecting systems, light sensing systems and photovoltaic systems comprising printable semiconductor elements, including large area, high performance macroelectronic devices. Optical systems of the present invention comprise semiconductor elements assembled, organized and/or integrated with other device components via printing techniques that exhibit performance characteristics and functionality comparable to single crystalline semiconductor based devices fabricated using conventional high temperature processing methods. Optical systems of the present invention have device geometries and configurations, such as form factors, component densities, and component positions, accessed by printing that provide a range of useful device functionalities.

Abstract: A device for opening a door includes an electric motor on a base, a slider movable relative to the base along a rectilinear direction between a rest position and an open position, and a rod pushing against the door and movable relative to the base and the slider along the rectilinear direction between a retracted position and an extracted position. An actuating element resiliently pushes the rod towards the extracted position. A gearwheel transmission is arranged between the electric motor and a transmission device to cause movement of the slider into the open position. The gearwheel transmission includes a gearwheel having a non-toothed segment which disengages the slider from the electric motor when the slider reaches the open position. A recall element recalls the slider towards the rest position or the rod towards the retracted position when the non-toothed segment disengages the slider from the electric motor.

Abstract: A tether for attachment to a damper device is formed to include a heated, reshaped enlarged bulbous end.

Abstract: Embodiments of energy storage caddies adapted to couple to a welding power supply are provided. The energy storage caddies may include an energy storage device, a charger, control circuitry, and power conversion circuitry. Certain control circuitry may be adapted to control the energy storage device to discharge to provide a direct current (DC) voltage output to the welding power supply when a weld load demand is detected, to monitor a charge level of the energy storage device, and to alert a user to an error when the charge level of the energy storage device falls below a predetermined limit.

Abstract: A fluid application device includes one or more applicator heads. each applicator head includes a service block configured to receive a fluid from a fluid supply source, a manifold secured to the service block and configured to receive the fluid from the service block, the manifold having a seat, a module secured to the manifold at the seat, the module including a valve configured to selectively control flow of the fluid in the manifold, and a nozzle having a first configuration removably securable to the manifold, the nozzle configured to receive the fluid from the manifold, the nozzle having a first interface for interfacing with the manifold.

Abstract: Provided herein are methods and materials for the manufacture and use of wettability tracks on various substrates for rapid fluid transport and drainage, even in a condensing environment. The degree of wettability of the materials' surfaces range from superhydrophobic to superhydrophilic. The method centers on the formation of a dispersion of titanium dioxide and a fluoroacrylic co-polymer in an alcohol and water solution. The dispersion may then be deposited onto a surface to form a coating, which is then dried to evaporate the alcohol. The dried coating is exposed to radiation to produce a wedge-shaped track. The coating is exposed to the radiation through a photomask to produce the track. The radiation may be high energy, such as UV radiation. The radiation may be selectively exposed to designated areas on the coating. The hydrophilic wedge-shaped track may have a wedge angle of from 0 degrees to 45 degrees.

Abstract: A laminated core stock sheet for use in a composite laminate assembly configured for being separated into plural individual cards is provided. The laminated core stock sheet includes a core substrate layer and an intermediate filmic layer coupled to the core substrate layer. The intermediate filmic layer includes plural conductive bodies spaced apart from each other that provide at least one of a security feature, a decorative feature, or other functional feature of the individual cards. The core substrate layer and the intermediate filmic layer are configured to be coupled with another laminated core stock sheet that may or may not include the intermediate filmic layer to form the composite laminate assembly configured for being separated into the individual cards.

Abstract: The present disclosure provides a device and method for producing low-frequency magnetic-field signals to enable long-range wireless communication through conductive media. The magnetic-field signals can be generated by mechanically moving permanent magnets. In some examples, transmitters are capable of transmitting signals in the ultra-low and very-low frequency ranges (e.g., 100 Hz-30 kHz), utilizing a small amount of power.

Abstract: An imaging system generates a first radiograph based on a first pattern of radiation detected by a Linear Diode Array (LDA) radiation detector positioned to detect a radiation beam emitted by a radiation generator. The LDA radiation detector comprises a plurality of modules. Each respective module of the plurality of modules comprises a respective plurality of photodiodes corresponding to pixels. Furthermore, the imaging system may determine, based on the first radiograph, a size of a gap between two of the modules of the LDA radiation detector. After determining the size of the gap, the imaging system may generate a second radiograph based on a second pattern of radiation detected by the LDA radiation detector. The imaging system may generate a third radiograph by modifying, based on the size of the gap, the second radiograph to compensate for the gap.

Abstract: A system and device for welding training. In one example, a welding training system includes a position detecting system configured to detect a distance between the position detecting system and objects within a field of view of the position detecting system, and to produce a map corresponding to the objects. The welding training system also includes a markers configured to be coupled to a device of the welding training system. Furthermore, the markers are configured to be detected by the position detecting system.

Abstract: Methods and apparatus for concentrating light into a specified focal volume and for collecting light from a specified volume. Incident light is coupled through a plurality of successive transmissive asymmetric microstructure elements. The succession of transmissive asymmetric microstructure elements may be designed by representing an electromagnetic field as a linear combination of eigenmodes of one of the succession of transmissive asymmetric microstructure elements. The asymmetric microstructure elements are represented as a plurality of mesh lattice units and eigenmode solutions to Maxwell's equations are obtained for each mesh lattice unit subject to consistent boundary conditions. S-matrix formalism is employed to calculate a field output and weighting coefficients for the eigenmodes are selected to achieve a specified set of field output characteristics.

Abstract: In certain embodiments, a system includes a master node device. The master node device includes communication circuitry configured to facilitate communication with a welding power supply unit via a long-range communication link, and to facilitate wireless communication with one or more welding-related devices via a short-range wireless communication network. The master node device also includes control circuitry configured to receive sensor data from one or more sensors within a physical vicinity of the short-range wireless communication network, and to route the sensor data to final destinations for the one or more sensors.

Abstract: A strategy for the synthesis of semi-telechelic polyethylene through the palladium diimine-catalyzed chain transfer polymerization of ethylene using various silanes as chain transfer agents is reported. Polymer molecular weight and end-group chemical structure can be tuned by varying the chain transfer agent as well as its concentration. NMR spectroscopy confirms that the silicon of the chain transfer agent is incorporated into the polymer. The stability of the catalyst toward polar monomer enables the chain transfer polymerization of semi-telechelic poly(ethylene-methyl acrylate) copolymers.

Abstract: A method includes receiving welding data corresponding to a welding session completed with a welding system, receiving a selected location from an operator, and displaying on a display one or more quality characteristics of the welding session corresponding to the selected location. The welding data includes welding parameters and quality characteristics corresponding to a plurality of points along a path of the welding session. The welding parameters include a work angle of a welding torch, a travel angle of the welding torch, a contact tip to work distance, a travel speed of the welding torch along the path of the welding session, an aim of the welding torch, or any combination thereof. The quality characteristics include porosity, undercut, spatter, underfill, overfill, or any combination thereof. The selected location corresponds to a point of the plurality of points along the path of the welding session.