Stotler
Daren Stotler, Plainsboro, NJ US
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20150228369 | FUELING METHOD FOR SMALL, STEADY-STATE, ANEUTRONIC FRC FUSION REACTORS - A system and method for fueling a fusion reactor. The system includes a reactor chamber containing a stable plasma including a fusion fuel; a heating system configured to heat the plasma and increase an ion energy of the plasma to a level sufficient for producing net power from fusion reactions in the stable plasma; a plurality of magnets coaxial to the reactor chamber, the plurality of magnets producing a magnetic field sufficient to confine the stable plasma and promote rapid loss of fusion products into a scrape off layer; and a neutral beam injection system configured to inject additional quantities of the fusion fuel to sustain the power output of the fusion reaction. | 08-13-2015 |
David V. Stotler, Newark, OH US
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20090258555 | Superabsorbent Water-Resistant Coatings - Articles coated with a water-resistant coating that absorbs water to provide the water-resistant effect, and desorbs water when the coating is dried, and a method of providing water resistance and corrosion resistance to articles prepared with such coatings. The coating is formed by applying a composition comprising an aqueous solution of a superabsorbent water-soluble polymer precursor, optionally a viscosity modifying agent, and optionally a lubricant onto the surfaces of the article, and curing to form a coating comprising the superabsorbent polymer. | 10-15-2009 |
Donald G. Stotler, Marietta, AZ US
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20080224806 | MATERIAL MAGNETIZER SYSTEMS - A system for improved magnetization of flexible magnetic sheet material, such as magnetic rubber. More particularly, this invention relates to providing a system for magnetization of pre-printed flexible magnetic sheet material. | 09-18-2008 |
James G. Stotler, Milwaukie, OR US
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20150133193 | WEARABLE DEVICES AND ASSOCIATED SYSTEMS - A wearable computing device can have a processor, a memory, and a display so operatively coupled to the processor and the memory as to display an output therefrom. The processor and the memory can be positioned in a resiliently flexible body. The resiliently flexible body can include a first end and an opposed second end, a first edge and an opposed second edge, wherein the first and the second edges extend between the first end and the opposed second end. The body can also have a wearer-engagement portion positioned between the first end and an intermediate region, wherein the finger-engagement portion of the resiliently flexible body circumferentially so extends around a longitudinally extending axis positioned parallel to the first end and spaced apart from the resiliently flexible body as to define an open interior region, wherein the interior region of the wearer-engagement portion defines an inner surface extending between the first edge and the second edge and between the first end and the intermediate region, wherein the wearer engagement portion further defines an outer surface positioned outward of the interior region and opposite the interior surface. A display portion of the body can be positioned between the intermediate region and the second end, wherein the display is positioned in the display portion on a same side of the resiliently flexible body as the outer surface of the wearer-engagement portion. A user input device can be positioned opposite the interior surface and outward of the interior region, and between the first end and the display portion. | 05-14-2015 |
20150160693 | WEARABLE DEVICES AND ASSOCIATED SYSTEMS - A wearable computing device can have a processor, a memory, and a display so operatively coupled to the processor and the memory as to display an output therefrom. The processor and the memory can be positioned in a resiliently flexible body. The resiliently flexible body can include a first end and an opposed second end, a first edge and an opposed second edge, wherein the first and the second edges extend between the first end and the opposed second end. The body can also have a wearer-engagement portion positioned between the first end and an intermediate region, wherein the finger-engagement portion of the resiliently flexible body circumferentially so extends around a longitudinally extending axis positioned parallel to the first end and spaced apart from the resiliently flexible body as to define an open interior region, wherein the interior region of the wearer-engagement portion defines an inner surface extending between the first edge and the second edge and between the first end and the intermediate region, wherein the wearer engagement portion further defines an outer surface positioned outward of the interior region and opposite the interior surface. A display portion of the body can be positioned between the intermediate region and the second end, wherein the display is positioned in the display portion on a same side of the resiliently flexible body as the outer surface of the wearer-engagement portion. A user input device can be positioned opposite the interior surface and outward of the interior region, and between the first end and the display portion. | 06-11-2015 |
Jason Stotler, Bakersfield, CA US
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20140305518 | Oilfield Safety Valve - An improved safety valve for oilfield operations comprising a first valve body comprising: an axial bore adapted to allow fluids to pass, a first end operatively engaging pump equipment, and a second end adapted to axially compress with a second valve body; the second valve body comprising an axial bore, adapted to axially compress with a second end of an intermediate valve body connector and the second end of the first valve body, and a second end operatively engaging pump equipment; the intermediate valve body connector having an axial bore and means for axial compression with the second valve body; the axial bores of the first and second valve bodies and the intermediate connector adapted to being axially aligned when compressed; and a valve internally disposed between the first valve body and the intermediate valve body connector and the second valve body and actuated by an externally accessible torque means. | 10-16-2014 |
Tim Stotler, Columbus, OH US
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20140299651 | MOLYBDENUM-BASED FRICTION STIR WELDING TOOLS - A friction stir welding tool includes that a body and a pin formed integrally with the body at one end thereof. The body and pin further include a first material and a second material; wherein the first material further includes a molybdenum-based refractory alloy; and wherein the second material further includes hafnium, lanthanum, carbon, titanium, zirconium, or combinations thereof. | 10-09-2014 |
Timothy Stotler, Columbus, OH US
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20090250439 | METHOD OF CREATING A CLAD STRUCTURE UTILIZING A MOVING RESISTANCE ENERGY SOURCE - A method for forming a clad structure utilizing a moving resistance energy source. The method forms a metallurgical bond between a cladding layer and a primary layer such that at least 2% of a cladding layer surface is metallurgically fusion bonded to a primary layer surface. The fusion bond does not extend all the way through the primary layer or the cladding layer. Either, or both, of the layers may incorporate surface texturing to reduce the contact area between the layers, and melting point suppressants may be incorporated into the method. | 10-08-2009 |
Timothy V. Stotler, Columbus, OH US
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20120205014 | INERTIA FRICTION WELD OF SUPERALLOY WITH ENHANCED POST WELD HEAT TREATMENT - A method of inertia friction welding a superalloy substrate, the method including: rotating and forcing a deposit material ( | 08-16-2012 |
William D. Stotler, Watsontown, PA US
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20120158322 | Automatic Stein Hall Viscosity Cup - A Stein Hall cup for measuring the viscosity of a starch adhesive is automated to provide viscosity measurement in real time using a PLC or other data gathering and control processor. Temperature of the adhesive is measured concurrently with viscosity and temperature signals are processed with the timed viscosity signal to provide a temperature compensated value of starch viscosity. | 06-21-2012 |