Patent application number | Description | Published |
20120330599 | Methods and Systems to Implement a Surrogate Head Model and Directly Measure Brain/Skull Relative Displacement - A human surrogate head model (HSHM) to measure brain/skull displacement due to a physical force, such as due to an explosive, ballistic, or automotive crash type of event. A HSHM may include a plurality of magnetic field generators positioned stationary relative to a HSHM skull, each to generate a magnetic field oriented with respect to a corresponding one of multiple directions. The HSHM may include one or more electromagnetic force (EMF)-based displacement sensors, each of which may include three inductive coils oriented orthogonally with respect to one another and co-aligned about a central point. A signal processor may be implemented to separate signals generated by each coil of each EMF-based displacement sensor into a plurality of component magnitudes, each attributable to a corresponding one of the magnetic fields. A computer-implemented model may be implemented to correlate between the component magnitudes and a corresponding position and orientation of the displacement sensor. | 12-27-2012 |
20130247646 | System and Method for Simulating Primary and Secondary Blast - A blast tube includes three portions and three diaphragms. The first portion has a first length and a first cross section. The second portion has a second length and a second cross section. The third portion has a third length and a third cross section. The first diaphragm is disposed between the second portion and the third portion and switches from a closed state to an open state at a first time. The second diaphragm switches from a closed state to an open state at a second time after the first time. The third diaphragm is disposed between the first portion and the second portion and switches from a closed state to an open state at a third time after the second time. The third portion is disposed between the first diaphragm and the second diaphragm. | 09-26-2013 |
20140220530 | Human Surrogate Neck Model - A human surrogate neck model includes a spinal neck region containing cervical vertebrae. A biosimulant intervertebral material is inserted between the cervical vertebrae. The spinal neck region is surrounded by a first silicone material mixed with a polymeric cross-linking inhibitor. One or more elastic tension bands are anchored to a top interface and a bottom interface of the neck model. A second silicone material mixed with a polymeric cross-linking inhibitor is applied to surround the spinal neck region and the first silicone material and to embed the tension bands. One or more of the elastic tension bands and/or a concentration ratio of the first silicone material or second silicone material to the polymeric cross-linking inhibitor can be adjusted for variable test conditions to closely simulate or mimic the static and dynamic characteristics of a human neck in various scenarios. | 08-07-2014 |
20140302306 | Cranial Bone Surrogate and Methods of Manufacture Thereof - A surrogate multilayered material includes a first fiber reinforced layer; the first reinforced layer including a crosslinked polymer and fibers; a second fiber reinforced layer; the second reinforced layer including the crosslinked polymer and the fibers; a foam layer; the foam layer disposed between the first fiber reinforced layer and the second fiber reinforced layer; where opposite faces of the foam layer are in direct contact with the first fiber reinforced layer and the second fiber reinforced layer; the foam layer having a compressive strength of about 3.5 to about 4.5 MPa, when measured as per ASTM-D-1621-73, and a shear strength of 1.50 to about 2.15 MPa, when measured as per ASTM-C-273. | 10-09-2014 |
Patent application number | Description | Published |
20110031222 | FEEDSTOCK POWDER FOR PRODUCTION OF HIGH HARDNESS OVERLAYS - A method of applying a metallic alloy overlay including providing an iron based feedstock powder including 10 to 75 weight percent iron and manganese, 10 to 60 weight percent of chromium, 1 to 30 weight percent of an interstitial element selected from boron, carbon, silicon or combinations thereof, 0 to 40 weight percent of a transition metal selected from molybdenum, tungsten or combinations thereof and 1 to 25 weight percent niobium. The method also includes providing an electrode including at least 50 weight percent iron and depositing a weld overlay with the feedstock powder and the electrode to create a metallic alloy exhibiting a grain size in the range of 1,000 μm or less. | 02-10-2011 |
20110100720 | Glass Forming Hardbanding Material - A drill pipe and a method of applying hardbanding thereto. A hardbanding alloy comprising iron and manganese present in the range of 67 to 87 weight percent (wt. %), niobium and chromium present in the range of 9 to 29 wt. %, and boron, carbon and silicon present in the range of 3 to 6.5 wt. % may be welded around at least a portion of a tool joint circumference. The hardbanding alloy may exhibit a hardness of 45 Rc to 70 Rc and a wear rate in the range of 0.08 grams to 1.60 grams of mass loss after 6,000 cycles as measured using ASTM G65-04, Procedure A. | 05-05-2011 |
20140190594 | Classes of Steels for Tubular Products - The present disclosure is directed and formulations and methods to provide alloys having relative high strength and ductility. The alloys may be provided in seamless tubular form and characterized by their particular alloy chemistries and identifiable crystalline grain size morphology. The alloys are such that they include boride pinning phases. In what is termed a Class 1 Steel the alloys indicate tensile strengths of 700 MPa to 1400 MPa and elongations of 10-70%. Class 2 Steel indicates tensile strengths of 800 MPa to 1800 MPa and elongations of 5-65%. Class 3 Steel indicates tensile strengths of 1000 MPa to 2000 MPa and elongations of 0.5-15%. | 07-10-2014 |
Patent application number | Description | Published |
20100203201 | FORMULATION AND PROCESS TO PREPARE A PREMIUM FORMULATED FRIED EGG - The present invention relates to the formulation and process for preparation of a fried egg product which may be frozen for future heating within a microwave or other oven for consumption by an individual. Various ingredients are added and mixed to each of the liquid egg white and liquid yolk portions. The liquid egg white portion is preheated and then deposited within a mold for slow cooking under controlled temperature and humidity conditions. The liquid yolk portion is preheated and then is added to the mold for placement on the egg white portion. Following a short period of cooking the mold containing the formulated fried eggs is transported to a freezer unit for freezing, packaging, and storage. At a future time the frozen formulated fried egg product may be retrieved for thawing and cooking for consumption by an individual. | 08-12-2010 |
20120231128 | FRUIT/VEGETABLE WITH ADDITIVE TO PREVENT DISCOLORATION - A fruit or vegetable, such as a pome or root vegetable, may be at least partially infiltrated with an additive to help prevent discoloration of the fruit or vegetable. In some examples, the additive helps the fruit or vegetable retain its natural color upon being exposed to air. In some examples, the additive includes gluconic acid. By maintaining the color of the fruit or vegetable, the shelf life and salability of the fruit or vegetable may be increased as compared to an untreated fruit or vegetable. | 09-13-2012 |
20120231129 | FRUIT/VEGETABLE WITH ADDITIVE TO RETAIN FIRMNESS - A firm and crisp fruit or vegetable, such as a pome or root vegetable, is at least partially infiltrated with an additive to help the fruit or vegetable retain its firmness during processing. In some examples, the additive helps the fruit or vegetable retain its firmness during and/or after cooking. In some examples, the additive includes at least one of a gluconate salt, a lactate salt, or a combination of a gluconate salt and a lactate salt. By maintaining the firmness of the fruit or vegetable during and/or after cooking, the fruit or vegetable can be cut, such as by shredding, or otherwise processed. By contrast, if the fruit or vegetable loses its firmness during processing, the fruit or vegetable may become limp or may disintegrate so that it is difficult to suitably cut or otherwise process the fruit or vegetable. | 09-13-2012 |
20120263841 | FORMULATION AND PROCESS TO PREPARE A PREMIUM FORMULATED FRIED EGG - The present invention relates to the formulation and process for preparation of a fried egg product that may be frozen for future heating in a microwave or other oven or griddle, for consumption by an individual. Various ingredients are added and mixed to each of the liquid egg white and liquid egg yolk portions. The liquid egg white portion is preheated and then deposited within a mold for slow cooking under controlled temperature and humidity conditions. The liquid egg yolk portion is preheated and then added to the mold for placement on the egg white portion. Following a short period of cooking, the mold containing the formulated fried eggs is transported to a freezer unit for freezing, then is removed from the mold for packaging and storage. At a future time, the frozen formulated fried egg product may be thawed and reheated for consumption by an individual. | 10-18-2012 |
20150072063 | PREMIUM FORMULATED EGG PRODUCT - The present invention relates to the formulation and process for preparation of a fried egg product that may be frozen for future heating in a microwave or other oven or griddle, for consumption by an individual. Various ingredients are added and mixed to each of the liquid egg white and liquid egg yolk portions. The liquid egg white portion is preheated and then deposited within a mold for slow cooking under controlled temperature and humidity conditions. The liquid egg yolk portion is preheated and then added to the mold for placement on the egg white portion. Following a short period of cooking, the mold containing the formulated fried eggs is transported to a freezer unit for freezing, then is removed from the mold for packaging and storage. At a future time, the frozen formulated fried egg product may be thawed and reheated for consumption by an individual. | 03-12-2015 |
20150079247 | PROCESS TO PREPARE A PREMIUM FORMULATED EGG PRODUCT - The present invention relates to the formulation and process for preparation of a fried egg product that may be frozen for future heating in a microwave or other oven or griddle, for consumption by an individual. Various ingredients are added and mixed to each of the liquid egg white and liquid egg yolk portions. The liquid egg white portion is preheated and then deposited within a mold for slow cooking under controlled temperature and humidity conditions. The liquid egg yolk portion is preheated and then added to the mold for placement on the egg white portion. Following a short period of cooking, the mold containing the formulated fried eggs is transported to a freezer unit for freezing, then is removed from the mold for packaging and storage. At a future time, the frozen formulated fried egg product may be thawed and reheated for consumption by an individual. | 03-19-2015 |
Patent application number | Description | Published |
20090093659 | Positional Diamondoid Mechanosynthesis - The invention provides methods of using positionally controlled molecular tools in an inert environment (such as ultra high vacuum) to fabricate complex atomically precise structures, including diamond, graphite, nanotubes, fullerenes, additional sets of the selfsame molecular tools, and others. Molecular tools have atomically precise tooltips which interact directly with a workpiece to add, remove, and modify specific atoms and groups of atoms, and have handles by which they can be held and positioned; tools can be recharged after use. Specific tooltips are brought into contact with and bond to specific feedstock molecules distributed on a presentation surface, and then transfer said feedstock molecules to specific atomic sites on a workpiece using mechanosynthetic chemical reactions. Specific sites on a workpiece can be made chemically reactive, facilitating the transfer of specific groups to them. Repeated applications of molecular tools at different locations on a workpiece can build a desired atomically precise structure. | 04-09-2009 |
20130178626 | Bootstrapping and Synthesis of Mechanosynthesis Tips - Processes are described for manufacturing atomically-precise tips using one or more tips in one or more mechanosynthetic reactions to create one or more atomically-precise tips. The processes may employ a variety of feedstock, binding any of a wide range of atoms to a workpiece to build the one or more atomically-precise tips. The processes result in atomically-precise mechanosynthesis tips with a wide variety of possible tip structures using a wide range of feedstock binding elements. Characteristics of such tips that may be used when designing new embodiments are also described. | 07-11-2013 |
20130178627 | Methods, Systems and Workpieces Using Mechanosynthesis - Methods and systems for building three-dimensional workpieces are described using a plurality of mechanosynthetic reactions. These methods may employ engineered reliability in reactions and process conditions and may use simulated or otherwise vetted reaction sequences, to allow workpieces requiring many reactions to be built with acceptable reliability. These many reactions may be the repetition of one or a small number of reactions, or many diverse reactions, or a combination thereof. | 07-11-2013 |
20130184461 | Mechanosynthesis Trajectories - Mechanosynthesis trajectories are described which are approximately coaxial, and are shown to be useful in a wide range of mechanosynthesis reactions regardless of the nature of the tip or the feedstock being transferred. | 07-18-2013 |
20150355228 | Build Sequences for Mechanosynthesis - Processes for creating build sequences are described which use computational chemistry algorithms to simulate mechanosynthetic reactions, and which may use the mechanosynthesis process conditions or equipment limitations in these simulations, and which facilitate determining a set of mechanosynthetic reactions that will build an atomically-precise workpiece with a desired degree of reliability. Included are methods for error correction of pathological reactions or avoidance of pathological reactions. Libraries of reactions may be used to reduce simulation requirements. | 12-10-2015 |
Patent application number | Description | Published |
20110035304 | INFORMATION MODEL FOR PROPERTY RECORDS MANAGEMENT - An information model for a party and property records management system includes a legal party role object for maintaining relationships between objects, such as legal party objects and revenue-object objects, within the information model. A legal party object could have several associated objects, such as an identification number object or a legal party communication object. | 02-10-2011 |
20120239538 | INFORMATION MODEL FOR PROPERTY RECORDS MANAGEMENT - An information model for a party and property records management system includes a legal party role object for maintaining relationships between objects, such as legal party objects and revenue-object objects, within the information model. A legal party object could have several associated objects, such as an identification number object or a legal party communication object. | 09-20-2012 |
20130282538 | INFORMATION MODEL FOR PROPERTY RECORDS MANAGEMENT - An information model for a party and property records management system includes a legal party role object for maintaining relationships between objects, such as legal party objects and revenue-object objects, within the information model. A legal party object could have several associated objects, such as an identification number object or a legal party communication object. | 10-24-2013 |
Patent application number | Description | Published |
20110106352 | AUTOMATED GUIDED VEHICLE - A vehicle for transporting material along a defined path includes a chassis, a source of electric power mounted on the chassis, a traction system including a traction motor connected to the power source for driving wheels supporting the chassis, a steering system including steering motor connected to the power source for adjusting an angular position of a steerable wheel supporting the chassis, and a controller for adjusting the vehicle's speed and direction by controlling operation of the traction motor and steering motor in response to information regarding the vehicle's location and travel direction relative to the path. | 05-05-2011 |
20110168464 | ELECTRIC POWERED CART FOR MOVING LOADS - A cart for moving loads includes a frame supported on wheels, a source of electric power supported on the frame, a drive system including a traction motor connected to the power source for driving a wheel secured to the frame and contacting ground, and a controller for adjusting a rotary direction of the drive wheel in response to selected states of an input to the controller. | 07-14-2011 |
20110258845 | Method of Assembling Electric Storage Battery Packs - A method of assembling a battery assembly includes forming battery packs, each pack including battery cells and cooling passages extending along a length of the pack, connecting terminals of each pack to a dc source and charging each pack to a desired state of charge, installing battery packs on a tray located on an automatically guided cart, using the cart to carry the battery assembly to locations where method steps are performed including performing testing for fluid leaks in a cooling circuit comprising interconnected passages of each pack on the tray and installing electric circuits in the assembly. | 10-27-2011 |