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Haggard, US
Clifton C. Haggard, Austin, TX US
| Patent application number | Description | Published |
|---|---|---|
| 20100224517 | DISK SEPARATOR DEVICE - A disk separator device for stacking semiconductor wafers includes a first portion having a disk support surface for accepting one side of a disk and a second portion including a guiding surface obliquely oriented to the disk support surface. The guiding surface has a first edge adjacent a curvilinear perimeter of the wafer support surface and a second edge spaced outwardly from the first edge. The separator device is nestingly received adjacent other separators to maintain a desired alignment of a stack of disks and separators. | 09-09-2010 |
| 20110215012 | DISK HOLDING DEVICE - A disk holding device for packaging hard drive disks includes a base, a cassette that is received against the base and a cover that is received over the cassette. The base includes a first locking surface. The cover includes a latch arm near an end of the cover. The latch arm has a second locking surface against which the first locking surface is received to secure the base and the cover together. At least one of the first locking surface or the second locking surface is moveable in an inward direction toward an interior of the cassette to unlock the locking surfaces so that the base and cover can be separated to open the disk holding device. | 09-08-2011 |
Jeff Haggard, Cocoa, FL US
| Patent application number | Description | Published |
|---|---|---|
| 20100173105 | CONTINUOUS, HOLLOW POLYMER PRECURSORS AND CARBON FIBERS PRODUCED THEREFROM - The present invention relates to a continuous, multicellular, hollow carbon fiber wherein the fiber structure includes a substantially hollow fiber and multiple internal walls defining multiple integral internal hollow fibers such that the fiber structure comprises a honeycomb-like cross section. | 07-08-2010 |
Jeffrey S. Haggard, Cocoa, FL US
| Patent application number | Description | Published |
|---|---|---|
| 20090258787 | Superconducting Wires and Cables and Methods for Producing Superconducting Wires and Cables - A superconductor structure is manufactured by forming a channel within a substrate along a surface of the substrate, depositing a material within the channel of the substrate, where the material includes one of a superconductor material and a precursor for a superconductor material, and thermally treating the substance within the channel of the substrate so as to form an elongated superconductor wire formed as a single, cohesive structure. The substrate can further include a plurality of channels with superconductor wires formed within the channels. In addition, a cable is formed including a bundle of individual superconductor wires arranged at different spatial positions with respect to each other. | 10-15-2009 |
| 20100078848 | SPINNERET AND METHOD OF SPINNING FIBER - Disclosed is a spinneret and a method of spinning. The spinneret includes a first pore configured for extruding a first component of a multi-component fiber, a second pore configured for extruding a second component of the multi-component fiber, and a thermal insulator positioned between the first pore and the second pore and configured for preventing heat from the first component from damaging the second component. The first component and the second component have incompatible thermal resistance. | 04-01-2010 |
| 20100196707 | Multi-Component Fibers Having Enhanced Reversible Thermal Properties and methods of manufacturing thereof - Multi-component fibers having enhanced reversible thermal properties and methods of manufacturing thereof are described. In one embodiment, a multi-component fiber includes a fiber body formed from a set of elongated members, and at least one of the set of elongated members includes a temperature regulating material having a latent heat of at least 40 J/g. The temperature regulating material provides thermal regulation based on at least one of absorption and release of the latent heat at the transition temperature. The multi-component fiber can be formed via a melt spinning process or a solution spinning process and can be used or incorporated in various products where a thermal regulating property is desired. For example, the multi-component fiber can be used in textiles, apparel, footwear, medical products, containers and packagings, buildings, appliances, and other products. | 08-05-2010 |
| 20100291384 | FIBER HAVING NON-UNIFORM COMPOSITION AND METHOD FOR MAKING SAME - A fiber having a non-uniform composition is disclosed. The fiber includes a first domain having a first composition and a second domain having a second composition different from the first composition. The fiber includes an interphase region intermediate the first and second domains that includes a blend of the first and second compositions to provide a gradual transition from the first domain composition to the second domain composition. A method for making such fibers is also disclosed. | 11-18-2010 |
| 20110076771 | TISSUE FIBER SCAFFOLD AND METHOD FOR MAKING - The present disclosure relates to a fiber, a method of forming a fiber, a system for forming a fiber, and a method of engineering tissue from a fiber. The fiber includes an engineered geometric feature forming a non-Euclidian geometry. | 03-31-2011 |
| 20110111225 | Extruded Filament Having High Definition Cross-Sectional Indicia/Coding, Microscopic Tagging System Formed Therefrom and Method of Use Thereof for Anti-Counterfeiting of Product Authentication - An extruded filament is provided having a cross-sectional configuration which permits a cut transverse section of the filament to function as a high definition tagging material, the extruded filament having contained therein along the direction of the longitudinal axis (the axis of extrusion) of the filament a multitude of extruded strand portions, which may be the same or different from one another from the standpoint of composition, visual or forensic effect, and which strand portions provide a multitude of pixel-like portions within a cross-sectional portion of the filament, which multitude of pixel-like portions, when taken together, comprise at least one pre-selected degree of identification whereby the tagging material may be differentiated or identified based on at least one degree of identification. A cut fiber or microparticle formed from the filament may be used to authenticate a product when used in association with the product. | 05-12-2011 |
J. Eric Haggard, South Elgin, IL US
| Patent application number | Description | Published |
|---|---|---|
| 20090090882 | ADJUSTABLE PRESSURE CONTROL VALVES - A solenoid operated valve and method of assembly characterized by a threaded connection between the pole piece ( | 04-09-2009 |
| 20110067767 | SEQUENCE VALVE - Sequence valves | 03-24-2011 |
Justin C. Haggard, Houston, TX US
| Patent application number | Description | Published |
|---|---|---|
| 20110040927 | Method and Apparatus for Performing Enhanced Read and Write Operations in a FLASH Memory System - Methods and apparatus for enhanced READ and WRITE operations in a FLASH-based solid state storage system that includes a logical to physical translation table where the logical to physical translation table can include entries associating a logical block address with one or more data identifiers, where each data identifier is associated with a data string. | 02-17-2011 |
Roy A. Haggard, Temecula, CA US
| Patent application number | Description | Published |
|---|---|---|
| 20110254301 | AERODYNAMICALLY CONTROLLED GRAPPLE ASSEMBLY - An aerodynamically controlled grapple assembly includes a frame member secured to an associated load line and a streamlined body mounted to the frame member. The streamlined body includes a main lifting surface extending away from the body in a first direction and a vertical stabilizer extending away from the body in a second direction. A pair of grapple arms are movably connected to the frame member. | 10-20-2011 |
Warren O. Haggard, Bartlett, TN US
| Patent application number | Description | Published |
|---|---|---|
| 20090028922 | Local Delivery Method and Composition - This invention provides a rapidly degrading composition for local delivery of a medicament, such as, an antibiotic. Additionally, this invention provides a method that can be used on the battlefield to deliver antibiotics as a preliminary treatment through the use of a rapidly degrading composition. | 01-29-2009 |
Warren Oliver Haggard, Bartlett, TN US
| Patent application number | Description | Published |
|---|---|---|
| 20100266694 | Chitosan/Carbon Nanotube Composite Scaffolds for Drug Delivery - A novel composite for internal application within wounds, incisions, and the like, for the prevention of biofilm growth therein is provided. Such a composite includes an antibiotic introduced within a sponge-like chitosan delivery product with electrically conductive nanomaterials present. Such a delivery product is also lyophilized subsequent to nanomaterial introduction but prior to antibiotic inclusion. The inventive lyophilized composite permits delivery of needed antibiotics internally within a patient with the simultaneous exposure to a sufficiently strong electrical current to permit a synergistic effect of increased antibiotic efficacy. In such a manner, relatively low amounts of antibiotic may be utilized to reduce the propensity of biofilm formation and/or growth within a wound or incision, or on the surface of an implant. Additionally, the lyophilized chitosan/nanomaterial composite allows for a maximum amount of antibiotic to be introduced with maximum elution therefrom as well. Lastly, the chitosan degrades over time within the subject's body, thereby avoiding any further invasive removal procedures. The method of such a manner of delivering improved antibiotic efficacy for biofilm prevention is encompassed within this invention as well. | 10-21-2010 |
Westley Haggard, Kirkland, WA US
| Patent application number | Description | Published |
|---|---|---|
| 20110307869 | DYNAMIC ADAPTIVE PROGRAMMING - Creating and executing platform portable code. A method includes declaring an object as being a dynamic object in a program. The program is a program compiled using a static language, except that the dynamic object is excluded from static analysis on the object when the program is compiled. The dynamic object includes a dependent call to a platform specific API. The platform specific API is available on one or more platforms to which a compiled version of the program will be deployed, but not available on one or more other platforms to which the compiled version of the program will be deployed. | 12-15-2011 |