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| 20100196333 | Device and Process for Producing Fiber Products and Fiber Products Produced Thereby - The present invention is directed to a fiber, preferably bone fiber, having a textured surface, which acts as an effective binding substrate for bone-forming cells and for the induction or promotion of new bone growth by bone-forming cells, which bind to the fiber. Methods of using the bone fibers to induce or promote new bone growth and bone material compositions comprising the bone fibers are also described. The invention further relates to a substrate cutter device and cutter, which are effective in producing substrate fibers, such as bone fibers. | 08-05-2010 |
| 20110027871 | Apparatus for Demineralizing Osteoinductive Bone - The invention is directed to an apparatus for producing demineralized osteoinductive bone. The apparatus demineralizes bone by subjecting bone, including, for example, ground bone, bone cubes, chips, strips, or essentially intact bone, to either a rapid high volume pulsatile acidification wave process or to a rapid continuous acid demineralization process. The pulsatile acidification wave process includes subjecting bone to two or more rapid pulse/drain cycles in which one or more demineralizing acids is rapidly pulsed into a vessel containing bone, and after a desired period of time, is rapidly drained from the vessel. The continuous acid demineralization process includes subjecting bone to a continuous exchange of demineralizing acid solution in which the demineralizing acid solution is recirculated from the container holding the bone through an ion exchange media. Calcium and phosphate are thereby removed from the bone to produce a regenerated acid, and the regenerated acid is returned to the container holding the bone. Both processes allow bone to be rapidly demineralized to a precise and specific desired residual calcium level without sacrificing osteoinductivity. | 02-03-2011 |
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| 20100323929 | Methods for Treating a Well with a Cross-Linked Water-Soluble Polymer-Complexed Metal Cation Network and an Aromatic Compound Capable of Forming a Chelating Agent to Uncross-Link the Polymer - Methods are provided for treating a portion of a well. The method according to this aspect comprises the steps of: (A) forming a treatment fluid, the treatment fluid comprising: (i) water; (ii) a water-soluble polymer; (iii) a complexed metal cation that: (a) has a valence state of at least three; and (b) is capable of cross-linking the water-soluble polymer; and (iv) an aromatic compound that is capable of dissolving, melting, or chemically decomposing, dissociating, or reacting, to form a chelating agent, wherein the chelating agent comprising vicinal substituents containing donor heteroatoms, and wherein the chelating agent is capable of chelating the metal cation; and (B) introducing the treatment fluid into the well. | 12-23-2010 |
| 20110015101 | STABILIZATION OF EMULSIONS CONTAINING RESINOUS MATERIAL FOR USE IN THE FIELD OF OIL OR GAS WELL TREATMENTS - According to one aspect of the inventions, emulsion compositions are provided. Emulsions according to this aspect include: (a) a water-insoluble resinous material; (b) water; and (c) an emulsifier, wherein the emulsifier comprises a non-ionic, a cationic, or a zwitterionic emulsifier; wherein the continuous phase of the emulsion comprises the water; wherein a dispersed phase of the emulsion comprises the resinous material; wherein the dispersed phase is in the form of droplets having a size distribution range such that at least 50% of the droplets have a size of 0.5 micrometers-500 micrometers; wherein the resinous material of the droplets is in a concentration of at least 5% by weight of the water; and wherein the composition of the droplets has a viscosity of less than 2,000 Poise measured at 20° F. According to another aspect of the inventions, methods are provided for treating a portion of a subterranean formation. Methods according to this aspect include the steps of: (a) forming an emulsion according to the composition described above; and (b) introducing the emulsion into a portion of a subterranean formation. | 01-20-2011 |
| 20110071056 | Degradable Surfactants, Including Degradable Gemini Surfactants, and Associated Methods - Methods and compositions are provided that include degradable gemini surfactants including degradable gemini surfactants. Methods of use include subterranean operations, especially those involving the placement of resin systems, formation of emulsions (e.g., emulsified acids, emulsified fracturing fluids, drilling fluids, etc.), and in the formation of surfactant gelled fluids. Such treatments include, but are not limited to, drilling, stimulation treatments (e.g., fracturing treatments, acidizing treatments), and completion operations (e.g., sand control treatments like gravel packing). | 03-24-2011 |
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| 20100229012 | MICROPROCESSOR THAT PERFORMS ADAPTIVE POWER THROTTLING - A microprocessor that performs adaptive power throttling includes a calculation unit that calculates an average power consumed by the microprocessor over a most recent predetermined sample time and determines whether the average power is less than a predetermined maximum power value. A power management unit controls the microprocessor to conditionally operate at a predetermined frequency if the average power is less than the predetermined maximum power value. The predetermined frequency is a frequency at which the microprocessor may consume more than the predetermined maximum power value. The predetermined maximum power value and sample time are specified to achieve power and/or thermal design goals of a system in which the microprocessor operates. The predetermined maximum power and/or sample time values are programmable by system software. To maintain a running average power value, a counter is incremented, both in sleeping and running states, by different increments depending upon the current performance point. | 09-09-2010 |
| 20110035616 | DETECTION OF UNCORRECTABLE RE-GROWN FUSES IN A MICROPROCESSOR - A microprocessor includes a first plurality of fuses, a predetermined number of which are selectively blown. Control values are provided from the first plurality of fuses to circuits of the microprocessor to control operation of the microprocessor. The microprocessor also includes a second plurality of fuses, blown with the predetermined number of the first plurality of fuses that are blown. In response to being reset, the microprocessor is configured to: read the first plurality of fuses and count a number of them that are blown; read the predetermined number from the second plurality of fuses; compare the counted number with the predetermined number read from the second plurality of fuses; and prevent itself from fetching and executing user program instructions if the number counted from reading the first plurality of fuses does not equal the predetermined number read from the second plurality of fuses. | 02-10-2011 |
| 20110035623 | DETECTION OF FUSE RE-GROWTH IN A MICROPROCESSOR - A microprocessor includes a first plurality of fuses, a predetermined number of which are selectively blown. Control values are provided from the fuses to circuits of the microprocessor to control operation thereof. A second plurality of fuses are blown with the predetermined number of the first plurality of fuses that are blown and a Boolean complement of the predetermined number. In response to being reset, the microprocessor: reads the predetermined number and the Boolean complement of the predetermined number from the second plurality of fuses, Boolean complements the predetermined number read from the second plurality of fuses to generate a result, compares the result with the Boolean complement of the predetermined number read from the second plurality of fuses, and prevent itself from fetching and executing user program instructions if the result does not equal the Boolean complement of the predetermined number read from the second plurality of fuses. | 02-10-2011 |
