Patents by Inventor Robert K. Mohr
Robert K. Mohr has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 7559215Abstract: The present invention provides a method of drawing a thermoelectrically active material in a glass cladding, comprising sealing off one end of a glass tube such that the tube has an open end and a closed end, introducing the thermoelectrically active material inside the glass tube and evacuating the tube by attaching the open end to a vacuum pump, heating a portion of the glass tube such that the glass partially melts and collapses under the vacuum such that the partially melted glass tube provides an ampoule containing the thermoelectric material to be used in a first drawing operation, introducing the ampoule containing the thermoelectric material into a heating device, increasing the temperature within the heating device such that the glass tube melts just enough for it to be drawn and drawing fibers of glass clad thermoelectrically active material.Type: GrantFiled: December 9, 2005Date of Patent: July 14, 2009Assignee: ZT3 Technologies, Inc.Inventors: Biprodas Dutta, Ian L. Pegg, Robert K. Mohr, Jugdersuren Battogtokh
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Patent number: 7530239Abstract: The present invention provides a method of drawing nanowires, comprising sealing off one end of a glass tube such that the tube has an open end and a closed end, introducing a nanowire material inside the glass tube and evacuating the tube by attaching the open end to a vacuum pump, heating a portion of the glass tube such that the glass partially melts under the vacuum such that the partially melted glass tube provides an ampoule containing the nanowire material to be used in a first drawing operation, introducing the ampoule containing the nanowire material into a heating device, increasing the temperature within the heating device such that the glass tube melts just enough for it to be drawn and drawing fibers of glass clad nanowire material. The invention further provides a method for bunching together such fibers and redrawing them one or more times to produce arrays of nanowires clad in glass.Type: GrantFiled: July 12, 2007Date of Patent: May 12, 2009Assignee: ZT3 Technologies, Inc.Inventors: Biprodas Dutta, Ian L. Pegg, Robert K. Mohr, Jugdersuren Battogtokh
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Patent number: 6334337Abstract: In a glass melter, a precious metal insert is used to protect a gas bubbler from corrosion at the orifice of the bubbler through which gas is injected into the melt. The use of a precious refractory metal insert at the bubbler orifice prevents the attack of molten glass on the bubbler. The precious metal is chosen from the refractory group of metals and the platinum group of metals. Preferably the precious metal from the platinum group is platinum or one of its alloys or one of ruthenium, rhodium, palladium, osmium and iridium. The precious metal from the refractory group is preferably chromium.Type: GrantFiled: August 17, 1999Date of Patent: January 1, 2002Inventors: Pedro Buarque de Macedo, Robert K. Mohr, Hamid Hojaji, Ian L. Pegg, Marek Brandys
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Patent number: 5678236Abstract: In this invention radioactive or hazardous containing materials are vitrified in a melter having two or more chambers. Glass feed materials are added to the primary chamber of the melter and they are heated to a molten glass which is then transported to one or more secondary chambers where hazardous and/or radioactive containing materials are added and are encapsulated and/or melted. In addition, the non-plutonium part of a glass feed can be melted in a non-radioactive environment which permits contact operations and maintenance; no radioactive shielding; and a conventional off gas system-similar to commercial vitrification plants. The hot molten "clean" glass is directed into a radioactive containment such as a "glove box"; shielded "glove box"; or hot cell, or a combination of these. By delivering hot "clean" glass from a melter including non-radioactive materials, 90% of the off gases will be non-radioactive.Type: GrantFiled: January 23, 1996Date of Patent: October 14, 1997Assignees: Pedro Buarque De Macedo, Theodore Aaron LitovitzInventors: Pedro B. Macedo, Ian L. Pegg, Hamid Hojaji, Robert K. Mohr, Marek Brandys
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Patent number: 5405590Abstract: An off-gas quencher and solid recovery scrubber unit includes a wet flue gas scrubber which has the dual responsibilities of lowering the temperature of the inlet hot gas entering through the scrubber and trapping contaminants from the gas stream into the liquid stream. The hot exhaust gases are first cooled by evaporating the liquid scrubber solution. The contaminants of the exhaust gas are neutralized by a suitable reagent such as sodium hydroxide and the product is collected in the scrubbing solution. Since the solution is continuously recycled, the concentration of the scrubbing agent will be diminished as the scrubbing proceeds, while the concentration of the scrubbing product in the solution will rise to the solubility limit of the product. The scrubbing products start to precipitate and are collected at the bottom of the scrubber and are withdrawn. The scrubbing reagents are continuously replenished to the scrubber.Type: GrantFiled: February 5, 1993Date of Patent: April 11, 1995Assignees: Pedro Buarque De Macedo, Theodore Aaron LitovitzInventors: Pedro B. D. Macedo, Hamid Hojaji, Marek Brandys, Robert K. Mohr
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Patent number: 5340372Abstract: Material, such as, for example, sealed double bags of asbestos containing waste or ash from infectious waste or toxic material or radioactive waste, is transferred into a glass melt of a furnace. Gas bubbles released into the melt form a gas curtain which causes enhanced mixing of the material to accelerate the dissolution of the components of the added material. The presence of the gas bubbles reduces the cross-section of the molten glass through which current passes, which in turn increases the electrical resistance of the glass melt and therefore increases power generation of the melt or power density at constant current. A highly oxidizing hot region is produced under the location where the material is introduced into the furnace. Drawn off glass is shaped and quenched into at least two sizes of approximate spheres. The spheres are cooled sufficiently fast to be thermally tempered and have a surface compressive strength level above 5000 psi.Type: GrantFiled: June 29, 1992Date of Patent: August 23, 1994Assignees: Pedro Buarque de Macedo, Theodore Aaron LitovitzInventors: Pedro B. Macedo, Robert K. Mohr
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Patent number: 5188649Abstract: Material, such as, for example, sealed double bags of asbestos containing waste or ash from infectious waste or toxic material or radioactive waste, is transferred into a glass melt of a furnace. Gas bubbles released into the melt form a gas curtain which causes enhanced mixing of the material to accelerate the dissolution of the components of the added material. The presence of the gas bubbles reduces the cross-section of the molten glass through which current passes, which in turn increases the electrical resistance of the glass melt and therefore increases power generation of the melt or power density at constant current. A highly oxidizing hot region is produced under the location where the material is introduced into the furnace. Drawn off glass is shaped and quenched into at least two sizes of approximate spheres. The spheres are cooled sufficiently fast to be thermally tempered and have a surface compressive strength level above 5000 psi.Type: GrantFiled: August 7, 1991Date of Patent: February 23, 1993Assignees: Pedro Buarque de Macedo, Theodore Aaron LitovitzInventors: Pedro B. Macedo, Robert K. Mohr
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Patent number: 4737316Abstract: A liquid containing radioactive ions is purified (decontaminated) by contacting the same with an inorganic ion exchange composition having ion exchange sites which can be occupied by the radioactive ions from the liquid. The ion exchange composition is a mixture of an ion exchange medium and an additive which is relatively inert to the ion exchange process and which is a sintering aid for the ion exchange medium designed to lower the sintering temperature of the ion exchange composition. The ion exchange composition may be disposed within a suitable container (e.g., cannister), e.g., made of 304L stainless steel or Inconel 601 and the ion exchange process may be carried out in such container. Alternatively, the ion exchange medium can be employed without being previously admixed with the additive. The additive, if desired, can be admixed at a later stage with the contaminated medium.Type: GrantFiled: May 20, 1986Date of Patent: April 12, 1988Assignees: Pedro B. Macedo, Theodore A. LitovitzInventors: Pedro B. Macedo, Herbert G. Sutter, Robert K. Mohr, Catherine J. Simmons
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Patent number: 4591455Abstract: A liquid containing radioactive ions is purified (decontaminated) by contacting the same with an inorganic ion exchange composition having ion exchange sites which can be occupied by the radioactive ions from the liquid. The ion exchange composition is a mixture of an ion exchange medium and an additive which is relatively inert to the ion exchange process and which is a sintering aid for the ion exchange medium designed to lower the sintering temperature of the ion exchange composition. The ion exchange composition may be disposed within a suitable container (e.g., cannister), e.g., made of 304L stainless steel or Inconel 601 and the ion exchange process may be carried out in such container. Alternatively, the ion exchange medium can be employed without being previously admixed with the additive. The additive, if desired, can be admixed at a later stage with the contaminated medium.Type: GrantFiled: November 24, 1982Date of Patent: May 27, 1986Assignees: Pedro B. Macedo, Theodore A. LitovitzInventors: Pedro B. Macedo, Herbert G. Sutter, Robert K. Mohr, Catherine J. Simmons
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Patent number: 4552577Abstract: The present invention is directed to a method and apparatus for forming shaped foamed-glass articles. Glass particles are introduced to a pressure vessel in the presence of water. A pressure is applied to the pressure vessel sufficient to permit entrapment of water during sintering and sufficient to prevent foaming at processing temperatures. The temperature of the glass is increased to cause the glass to sinter and entrap water. The temperature of the glass is then increased to its fining temperature (T.sub.F) for a sufficient time to fine the glass. The temperature of the glass is reduced to its pressure release temperature (T.sub.PR). The pressure on the glass containing water is then reduced such as by extrusion to cause controlled foaming of the glass to occur. The glass is then cooled preferably by annealing to form the shaped foamed-glass article, typically pipe insulation.Type: GrantFiled: April 5, 1983Date of Patent: November 12, 1985Assignees: Pedro B. Macedo, Theodore A. LitovitzInventors: Deepak Varshneya, Pedro B. Macedo, Robert K. Mohr
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Patent number: 4443700Abstract: A sensor for measuring stress, temperature, pressure, sound, etc. comprising an optical waveguide, preferably an optical fiber waveguide, a light source which injects light into one end of the waveguide, a deformer contacting and deforming the waveguide to cause light to couple from originally excited modes to other modes, and an optical detector to detect the change in light coupling caused by deformation of the waveguide.Type: GrantFiled: May 13, 1982Date of Patent: April 17, 1984Assignees: Pedro B. Macedo, Theodore A. LitovitzInventors: Pedro B. Macedo, Theodore A. Litovitz, Nicholas Lagakos, Robert K. Mohr, Robert Meister
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Patent number: 4362542Abstract: In a method of making a strong fiber waveguide in which a preform is heated and pulled to make the fiber, the improvement includes adding to the preform at least one dopant capable of creating a mechanical stress profile in the preform and at least another dopant capable of creating an index of refraction profile in the preform, and varying the dopants added to produce a composition profile so that the composition profile varies radially from the center to the surface to form a core, an intermediate clad layer having an index of refraction lower than the core, and a surface layer which is in compression having a thermal expansion coefficient smaller than the core and having a predetermined thickness less than 10% of the radius of the core, the compression being greater than 20,000 psig.Type: GrantFiled: November 2, 1981Date of Patent: December 7, 1982Assignees: Pedro B. Macedo, Theodore A. LitovitzInventors: Pedro B. Macedo, Robert K . Mohr, Prabhat K. Gupta
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Patent number: 4342907Abstract: A sensor for measuring stress, temperature, pressure, sound, etc. comprising an optical waveguide, preferably an optical fiber waveguide, a light source which injects light into one end of the waveguide, a deformer contacting and deforming the waveguide to cause light to couple from originally excited modes to other modes, and an optical detector to detect the change in light coupling caused by deformation of the waveguide.Type: GrantFiled: February 1, 1980Date of Patent: August 3, 1982Assignees: Pedro B. Macedo, Theodore A. LitovitzInventors: Pedro B. Macedo, Theodore A. Litovitz, Nicholas Lagakos, Robert K. Mohr, Robert Meister
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Patent number: 4181403Abstract: A glass dielectric fiber waveguide with a composition profile varying radially from the center to the surface, the composition profile causing a surface layer which is in compression, said composition profile being caused by (a) at least one dopant used substantially to create a stress profile wherein the surface is in compression, and (b) at least one dopant used substantially for the purpose of creating an index of refraction profile.Type: GrantFiled: December 30, 1976Date of Patent: January 1, 1980Assignees: Pedro Buarque De Macedo, Theodore Aaron LitovitsInventors: Pedro B. Macedo, Robert K. Mohr, Prabhat K. Gupta