Patent application number | Description | Published |
20090255980 | CONTROL SYSTEMS FOR FRICTION STIR WELDING OF TITANIUM ALLOYS AND OTHER HIGH TEMPERATURE MATERIALS - Control systems, methods, and algorithms are provided for controlling the process parameters during FSW in order to repeatedly produce high quality welds for high temperature alloys such as titanium alloys and superalloys. In accordance with exemplary embodiments of the present invention, a desired range of forge load, pinch load, and/or travel load can be reliably maintained in a FSW system by adjusting the rotational speed thereof. In other embodiments, a desired temperature range of the tool or weld can be maintained by adjusting a plunge depth of pin tool for conventional FSW or distances between upper and lower shoulders for self-reacting FSW processes. Other embodiments of the present invention provide methods and/or apparatus suitable for rotational control and/or plunge depth control for FSW of titanium alloys and/or other high temperature alloys such as super alloys. | 10-15-2009 |
20100140321 | FRICTION STIR WELDING APPARATUS AND METHOD - A friction stir welding device may include a rotatable head, a rotatable upper shoulder, a lower shoulder and a pin device. The rotatable head includes a first multisided connection portion. The rotatable upper shoulder includes a first cavity and a second multisided connection portion. The second multisided connection portion is configured to engage the first multisided connection portion. The lower shoulder includes a second cavity and a third multisided connection portion. The pin device includes a first end and a second end. At least a portion of the second end includes a fourth multisided connection portion. The fourth multisided connection portion can be configured to engage the third multisided connection portion. The pin device may be configured to retractably traverse the rotatable upper shoulder via the first cavity. The rotatable upper shoulder, the pin device and the lower shoulder may be configured to friction stir weld a workpiece. | 06-10-2010 |
20130037601 | METHOD AND APPARATUS FOR FRICTION STIR WELDING TUBE ENDS FOR A HEAT EXCHANGER - A method for forming a joint between a tube and a sheet includes forming an anvil at least within the tube, and welding the tube to the sheet in the presence of the anvil. The anvil includes an anchor which is placed within the tube near or at the joint to be formed. At least one washer is placed over the end of the anchor that is near the joint to be formed. A threaded fastener is then placed into the anchor to securely hold the anchor within the tube and to provide a backing substantial enough so that a friction stir weld can be formed. The threaded fastener and the washer can be used as a guide for the friction stir weld. Once the weld is completed, the anvil can be removed. The weld can be further processed to remove burrs and other material. | 02-14-2013 |
20140261900 | FRICTION SURFACE STIR PROCESS - A process is described that employs what can be termed a friction surface stirring (FSS) process on the surface of a metal object. The FSS process occurs on some or the entire surface of the metal object, at a location(s) separate from a friction stir welded joint. The FSS process on the surface produces a corrosion resistant mechanical conversion “coating” on the object. The “coating” is formed by the thickness of the material of the object that has been FSS processed. In one exemplary application, the process can be applied to a metal strip that is later formed into a tube whereby the “coated” surface resides on the inside of the tube making it highly resistant to corrosive flow such as seawater. | 09-18-2014 |
20150075242 | FRICTION-STIR EXTRUDERS AND FRICTION-STIR EXTRUSION PROCESSES - A friction-stir mandrel includes a textured end portion integral with a body portion. The textured end portion is configured to friction-stir process a starting material forced across the textured end portion and through a die in a plasticized state to form a pipe. A pipe can be formed by forcing a starting material across a textured end of the mandrel and through a die in a plasticized state, so that the textured end of the mandrel breaks up existing grains of the starting material. The pipe is formed from material that is forced through the die. The friction-stir mandrel can be used with porthole die friction-stir extrusion, seamless tube friction-stir extrusion, and tube friction-stir drawing processes to provide tubing in which the grains are broken up by the textured portion of the friction-stir mandrel. The textured portion can include features, such as threads, ridges, studs, protrusions, and the like. | 03-19-2015 |
Patent application number | Description | Published |
20120182329 | Low grey enhancement in the field emission display (FED) based on sub-Row driving (SRD) technology - This invention is involved with the discipline of the display manufacturing technique, especially a low grey enhancement method for the FED system based on a SRD grey modulation driving technique. The feature is which based on the sub-row grey modulation of the SRD technique, apply low grey enhancement to eliminate the low grey loss in the low grey image information. In addition, the low grey loss is modified by the time compensation, and the display quality of the image is improved. | 07-19-2012 |
20130026906 | Triode-structured field emission display with anode and gate on the same substrate - The present invention relates to a triode field emission display with anode and gate on the same substrate, comprising anode-gate substrate and cathode substrate, parallel and adapted in the size; a number of strip-like cathode conducting layers arranged alternating on the cathode substrate; resistor layer for current limiting and dielectric layer for cathode protection are arranged alternately on the cathode conducting layer in the longitudinal direction; the electron emission materials are arranged on the resistor layer for current limiting; wherein the strip-like anode conducting layer and strip-like gate conducting layer on the anode-gate substrate are perpendicular to the strip-like cathode conducting layer on the cathode substrate, dielectric layer for isolation is arranged between the anode-gate and the cathode substrates, one end of the dielectric layer for isolation is connected to the dielectric layer for gate protection, the other end is connected to the dielectric layer for cathode protection. | 01-31-2013 |
20130241434 | dielectric-free triode field emission display device based on double-gate/single-cathode type electron emission units - The present invention relates to display manufacturing technology, especially for a dielectric-free triode field emission display device based on double-gate/single-cathode type electron emission units and the device drive methods. This device comprises parallelly positioned anode and cathode/gate plates, during production, gate/cathode/gate electron emission units are set on the cathode/gate plate side by side. The spacing between cathode and gate electrodes is vacuum circumstance. For each cathode, an anode is positioned on the anode plate, facing the cathode. And the voltages applied on the cathode and gate electrodes are to scan and the anode voltage is to adjust the signal. When the electrodes on the cathode/gate plate take on fixed roles, fixed voltages are used to drive the device. When these electrodes on the cathode/gate plate can be used interchangeably as cathode or gate electrodes, respectively, pulse scanning method is used to drive the device. | 09-19-2013 |
20140111083 | symmetric quadrupole structured field emission display without spacer - The present invention relates to a symmetric quadrupole structured field emission display without spacer comprising the upper and under substrates with a dielectric layer in between, wherein comb-like dielectric layer with lateral connection belts and a number of longitudinal working belts and longitudinal anodes are arranged on the upper substrate, bus electrodes are arranged longitudinally along the center on each anode, on the top, longitudinal alternating phosphor layer and dielectric layer for isolation on anode, gate electrodes are arranged on both sides of each longitudinal work belts, with the bus electrode as symmetry center, forming interdigital gate electrodes, horizontal cathode electrodes and longitudinal auxiliary electrodes are on the under substrate, resistor layer for current limiting and dielectric layer for cathode protection are arranged alternating horizontally on each cathode electrode, each intersect of the auxiliary electrode and cathode is isolated by the dielectric layer for cathode | 04-24-2014 |
Patent application number | Description | Published |
20110003277 | Dioxetane-Nanoparticle Assemblies For Energy Transfer Detection Systems, Methods Of Making The Assemblies, And Methods Of Using The Assemblies in Bioassays - Assemblies comprising nanoparticles and chemiluminescent substrates such as dioxetanes are provided. The assemblies can be used in assays to detect the presence and/or amount of a single analyte or multiple analytes in a sample. Methods of making the assemblies are also described. | 01-06-2011 |
20120100566 | CHEMILUMINESCENT COMPOSITIONS, METHODS, ASSAYS AND KITS FOR OXIDATIVE ENZYMES - Chemiluminescent compositions, methods, assays and kits for oxidative enzymes are described. Further disclosed are dioxetane compounds of the form: 0-0 ΛR R R T (i) where R can independently be any branched alkyl or cycloalkyl group which provides stabilization for the dioxetane or where both R groups together form a cycloalkyl or polycycloalkyl moiety spiro bound to the dioxetane ring, wherein each R group or the spiro bound moiety can be unsubstituted or substituted with one or more electron-withdrawing groups or electron donating groups, or groups providing preferential oxidative isozyme substrate recognition, and wherein Ri is an aryl group, or an alkyl group of 1-20 carbon atoms, which can be optionally substituted with 1 or more halogen atoms, and wherein T is an aryl or heteroaryl ring capable of emitting light upon enzyme activated decomposition of the dioxetane I. Kits, methods and assays are also disclosed that comprise the dioxetane compounds. | 04-26-2012 |
20130196325 | In Situ Chemiluminescent Substrates and Assays - Methods for generating a chemiluminescent enzyme substrate in situ, in aqueous or other assay conditions. Also disclosed are methods to use the substrates to generate light, detect and/or quantify enzymes, antigens, and/or nucleic acids. Kits relating to these methods are also disclosed. | 08-01-2013 |
20140154675 | Flash and Glow 1,2-Dioxetanes - Compounds having chemiluminescent flash and glow properties. Also disclosed are methods using the compounds to generate light, detect and/or quantify enzymes, antigens, and/or nucleic acids. Also disclosed are kits relating to these compounds. | 06-05-2014 |