Patents Assigned to University of Northern Iowa Research Foundation
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Patent number: 10926317Abstract: A method of casting an article from a molten metal including: admitting molten metal to a mould formed from a foundry sand comprising a blend of silica sand and a zircon aggregate, the zircon aggregate exhibiting a sharp rise in linear thermal expansion coefficient in a temperature band above 1200° C. and up to 1600° C.; and cooling the mould and molten metal to solidify the molten metal and form a cast article, wherein one or more surfaces of the mould, or of a portion of the mould, in contact with the molten metal are uncoated.Type: GrantFiled: October 18, 2017Date of Patent: February 23, 2021Assignees: ILUKA RESOURCES LIMITED, University of Northern Iowa Research FoundationInventors: Jorge Masbate, Gerard Thiel, Sairam Ravi
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Publication number: 20200047242Abstract: A method of casting an article from a molten metal including: admitting molten metal to a mould formed from a foundry sand comprising a blend of silica sand and a zircon aggregate, the zircon aggregate exhibiting a sharp rise in linear thermal expansion coefficient in a temperature band above 1200° C. and up to 1600° C.; and cooling the mould and molten metal to solidify the molten metal and form a cast article, wherein one or more surfaces of the mould, or of a portion of the mould, in contact with the molten metal are uncoated.Type: ApplicationFiled: October 18, 2017Publication date: February 13, 2020Applicants: ILUKA RESOURCES LIMITED, University of Northern Iowa Research FoundationInventors: Jorge MASBATE, Gerard THIEL, Sairam RAVI
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Patent number: 10369623Abstract: A bio-based binder system for use in preparing foundry molds. In a preferred embodiment, the system includes the use of a) a polyermizable hydroxyl-containing component comprising a saccharide, b) an isocyanate component, and c) a catalyst, and preferably amine catalyst, component adapted to catalyze the polymerization of a) and b), in the presence of a foundry aggregate such as sand. The system can be used in any suitable manner, including in either a cold box process or no bake process as described herein.Type: GrantFiled: June 30, 2016Date of Patent: August 6, 2019Assignee: University of Northern Iowa Research FoundationInventors: Gerard R. Thiel, Shoshanna R. Coon, Mitchell Patterson, Andrew Simonson, Ian Williams, Ryan Jones
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Patent number: 10328484Abstract: A foundry sand comprises a blend that includes a silica sand and a zircon aggregate. The zircon aggregate exhibiting a sharp rise in linear thermal expansion coefficient in a temperature band above 1200° C. A method of casting an article in molten metal at a temperature above 1200° C. includes forming a single or multi-part mold for the article from the above-described foundry sand, admitting molten metal to the mold at a temperature such that at least one or more regions of the foundry sand in contact with the admitted metal are heated to a temperature within the temperature band, and cooling the mold and metal to obtain a cast article.Type: GrantFiled: April 7, 2016Date of Patent: June 25, 2019Assignees: Iluka Resources Limited, University of Northern Iowa Research FoundationInventors: Gerard Thiel, Sairam Ravi
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Patent number: 9564304Abstract: In one aspect of the invention, an ion trap mass analyzer includes a variable- or multi-potential type ion guide (MPIG) assembly which has been pre-configured to produce a parabolic-type potential field. Each MPIG electrode has a resistive coating of designed characteristics. In one example the coating varies in thickness along the length of an underlying uniform substrate. The MPIG assembly can be a single MPIG electrode or an array of a plurality of MPIG electrodes. An array can facilitate delocalization for improved performance. This chemical modification of a uniform underlying substrate promotes cheaper and flexible instruments. The modified MPIG electrodes also allow miniaturization (e.g. micro and perhaps even nano-scale), which allows miniaturization of the instrument in which the single or plural modified MPIG electrode(s) are placed. This promotes portability and field use instead of limitation to laboratory settings.Type: GrantFiled: October 14, 2015Date of Patent: February 7, 2017Assignee: University of Northern Iowa Research FoundationInventor: Curtiss Dwight Hanson
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Patent number: 9190254Abstract: In one aspect of the invention, an ion trap mass analyzer includes a variable- or multi-potential type ion guide (MPIG) assembly which has been pre-configured to produce a parabolic-type potential field. Each MPIG electrode has a resistive coating of designed characteristics. In one example the coating varies in thickness along the length of an underlying uniform substrate. The MPIG assembly can be a single MPIG electrode or an array of a plurality of MPIG electrodes. An array can facilitate delocalization for improved performance. This chemical modification of a uniform underlying substrate promotes cheaper and flexible instruments. The modified MPIG electrodes also allow miniaturization (e.g. micro and perhaps even nano-scale), which allows miniaturization of the instrument in which the single or plural modified MPIG electrode(s) are placed. This promotes portability and field use instead of limitation to laboratory settings.Type: GrantFiled: December 15, 2014Date of Patent: November 17, 2015Assignee: University of Northern Iowa Research FoundationInventor: Curtiss Dwight Hanson
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Patent number: 8962542Abstract: A process and corresponding apparatus and system for use in preparing soaps from fatty acid containing oil compositions, and in turn, for preparing greases by the use of such soaps in combination with one or more base oils.Type: GrantFiled: April 22, 2010Date of Patent: February 24, 2015Assignee: University of Northern Iowa Research FoundationInventors: Lou A. T. Honary, Wesley E. James
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Patent number: 8815976Abstract: A system for use in forming polymer compositions, including as a replacement for phenolic based resin systems, for instance, in preparing foundry molds. In a preferred embodiment, the system includes the use of a) a polyermizable hydroxyl-containing component comprising a humic substance (as can be provided by lignite), b) an isocyanate component, and c) a catalyst, and preferably amine catalyst, component adapted to catalyze the polymerization of a) and b). The system is optionally used as binder system in the presence of a filler, such as, in combination with a foundry aggregate such as sand. A polymer system of this invention can be substantially free of formaldehyde or phenol, and preferably contains little or no aromatic solvents.Type: GrantFiled: November 14, 2008Date of Patent: August 26, 2014Assignee: University of Northern Iowa Research FoundationInventor: Gerard R. Thiel
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Patent number: 8474306Abstract: A method and apparatus for determining the contact angle and/or surface tension of a liquid on a solid surface is described. The method involves placing a fluid drop on a solid surface, and gradually increasing its volume by adding more fluid, while continuing to determine the corresponding increase in fluid height, until the drop attains maximum height beyond which additional fluid only increases the drop footprint and not height, and determining the equilibrium height and in turn the contact angle by means of an equation that correlates contact angle with depth below the fluid surface, together with the fluid surface tension and liquid density. The method may in turn be used to determine the fluid surface tension from the equilibrium height when the contact angle and density of the fluid are known.Type: GrantFiled: May 27, 2010Date of Patent: July 2, 2013Assignee: University of Northern Iowa Research FoundationInventor: Feredoon Behroozi
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Publication number: 20130029887Abstract: A process and corresponding apparatus and system for use in preparing soaps from fatty acid containing oil compositions, and in turn, for preparing greases by the use of such soaps in combination with one or more base oils.Type: ApplicationFiled: April 22, 2010Publication date: January 31, 2013Applicant: UNIVERSITY OF NORTHERN IOWA RESEARCH FOUNDATIONInventors: Lou A.T. Honary, Wesley E. James
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Publication number: 20120201739Abstract: A method of providing and using a material storage system that includes a material stored within an intercalated dichalcogenide material. Also provided are novel materials for use in preparing such a system, including combinations and systems thereof, as well as a material stored and recovered for use by employment of such a method.Type: ApplicationFiled: April 30, 2010Publication date: August 9, 2012Applicant: UNIVERSITY OF NORTHERN IOWA RESEARCH FOUNDATIONInventor: Timothy E. Kidd
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Publication number: 20110190444Abstract: A system for use in forming polymer compositions, including as a replacement for phenolic based resin systems, for instance, in preparing foundry molds. In a preferred embodiment, the system includes the use of a) a polyermizable hydroxyl-containing component comprising a humic substance (as can be provided by lignite), b) an isocyanate component, and c) a catalyst, and preferably amine catalyst, component adapted to catalyze the polymerization of a) and b). The system is optionally used as binder system in the presence of a filler, such as, in combination with a foundry aggregate such as sand. A polymer system of this invention can be substantially free of formaldehyde or phenol, and preferably contains little or no aromatic solvents.Type: ApplicationFiled: November 14, 2008Publication date: August 4, 2011Applicant: University of Northern Iowa Research FoundationInventor: Gerard R. Thiel
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Publication number: 20100319874Abstract: A bio-based binder system for use in preparing foundry molds. In a preferred embodiment, the system includes the use of a) a polyermizable hydroxyl-containing component comprising a saccharide, b) an isocyanate component, and c) a catalyst, and preferably amine catalyst, component adapted to catalyze the polymerization of a) and b), in the presence of a foundry aggregate such as sand. The system can be used in any suitable manner, including in either a cold box process or no bake process as described herein.Type: ApplicationFiled: November 14, 2008Publication date: December 23, 2010Applicant: UNIVERSITY OF NORTHERN IOWA RESEARCH FOUNDATIONInventors: Gerard R. Thiel, Shoshanna R. Coon, Mitchell Patterson, Andrew Simonson, Ian Williams, Ryan Jones
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Patent number: 7839417Abstract: A virtual coatings application system has several features to enhance the realism of simulated spray painting. The system generally includes a display screen on which is defined a virtual surface (such as a truck door) that is intended to be virtually painted or coated by the user. Alternatively, the system includes a head-mounted display unit that displays a virtual spray painting environment in which the virtual surface is defined. The user operates an instrumented spray gun controller that outputs one or more signals representing data as to the status of the controls on the spray gun controller. The system also has a motion tracking system that tracks the position and orientation of the spray gun controller with respect to the virtual surface. Simulation software generates virtual spray pattern data in response to at least the data from the spray gun controller and the position and orientation data received from the tracking system.Type: GrantFiled: October 6, 2006Date of Patent: November 23, 2010Assignee: University of Northern Iowa Research FoundationInventors: Jason M. Ebensberger, Michael J. Bolick, Jeremiah G. Treloar, Richard J. Klein, II, Eric C. Peterson, Chad J. Zalkin, James B. Fisher, Leslie C. Hughes
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Patent number: 7839416Abstract: A virtual coatings application system has several features to enhance the realism of simulated spray painting. The system generally includes a display screen on which is defined a virtual surface (such as a truck door) that is intended to be virtually painted or coated by the user. The user operates an instrumented spray gun controller that outputs one or more signals representing data as to the status of the controls on the spray gun controller. The system also has a motion tracking system that tracks the position and orientation of the spray gun controller with respect to the virtual surface defined on the display screen. Simulation software generates virtual spray pattern data in response to at least the data from the spray gun controller and the position and orientation data received from the tracking system. Virtual spray pattern images are displayed in real time on the display screen in accordance with the accumulation of virtual spray pattern data at each location on the virtual surface.Type: GrantFiled: March 10, 2006Date of Patent: November 23, 2010Assignee: University of Northern Iowa Research FoundationInventors: Jason M. Ebensberger, Michael J. Bolick, Jeremiah G. Treloar, Richard J. Klein, II, Eric C. Peterson, Chad J. Zalkin, James B. Fisher, Leslie C. Hughes
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Patent number: 7817162Abstract: A computer simulation and virtual reality system simulates the use of a blasting nozzle to remove one or more coatings and/or rust from a virtual surface. The user operates an electronic controller in the form of a blasting nozzle that outputs a signal indicating whether the blasting nozzle controller is in an “on” position or in an “off” position. The system also has a motion tracking system that tracks the position and orientation of the blasting nozzle controller with respect to the virtual surface defined on the display screen. Simulation software in a computer generates virtual blast pattern data, and the removal of the virtual coating(s) and/or rust image from the virtual surface is displayed in real time on the display screen.Type: GrantFiled: February 11, 2008Date of Patent: October 19, 2010Assignee: University of Northern Iowa Research FoundationInventors: Michael Bolick, Chris Lampe, Jason Ebensberger, Jeremiah Treloar, Rick Klein, Eric Conrad Peterson, Chad Jason Zalkin
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Publication number: 20100096477Abstract: An ergonomic adapter for an aerosol spray can. The ergonomic adapter has an elastomeric collar that fits around a body of an aerosol spray paint can such that a front portion of the collar is facing in front of the can just below the interface between the body and the domed top of the spray can. The front of the adapter includes a compartment that houses a polychromatic light source for lighting the surface and/or a light beam arrangement for targeting and positioning the spray can with respect to the surface.Type: ApplicationFiled: October 16, 2009Publication date: April 22, 2010Applicant: UNIVERSITY OF NORTHERN IOWA RESEARCH FOUNDATIONInventors: Richard J. Klein, II, Thomas J. Giblin, John L. Konefes, Nicholas J. Webb, Stephen Orsatti
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Publication number: 20100096472Abstract: An ergonomic adapter for an aerosol spray can helps to reduce finger pain and hand fatigue. The ergonomic adapter has a collar that fits around a body of an aerosol spray paint can such that a front portion of the collar is facing in front of the can just below the interface between the body and the domed top of the spray can. An arcuate finger strip extends upward from the rear side of the collar and over the push-button nozzle on the spray can when the adapter is fitted onto the body of the spray can. The collar and the arcuate finger strip are made of a resilient, flexible material such as butyl rubber. The arcuate finger strip preferably has a concave upper surface. The collar has enlarged traction pads positioned to facilitate gripping by the user. When the user grips the ergonomic adapter, the user's index finger rests in the concave, arcuate finger strip.Type: ApplicationFiled: October 20, 2008Publication date: April 22, 2010Applicant: UNIVERSITY OF NORTHERN IOWA RESEARCH FOUNDATIONInventors: Richard J. Klein, II, Thomas J. Giblin, John L. Konefes, Nicholas J. Webb, Stephen Orsatti
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Publication number: 20100077959Abstract: A virtual coatings application system realistically simulates airless spray painting. The system generally includes a display screen on which is defined a virtual surface that is intended to be virtually painted or coated by the user. The user operates the instrumented airless spray gun controller which is instrumented with a tracking device and an electronic on/off switch for the trigger. The system also has a motion tracking system that tracks the position and orientation of the airless spray gun controller with respect to the virtual surface defined on the display screen. Simulation software generates virtual spray pattern data in response to the setup parameters and the position and orientation of the airless spray gun controller with respect to the virtual surface. Virtual spray pattern images are displayed in real time on the display screen in accordance with the accumulation of virtual spray pattern data at each location on the virtual surface. The primary purpose of the system is to enhance training.Type: ApplicationFiled: September 29, 2008Publication date: April 1, 2010Applicant: UNIVERSITY OF NORTHERN IOWA RESEARCH FOUNDATIONInventors: Jeremiah G. Treloar, Christopher A. Lampe, Jason M. Ebensberger, Michael J. Bolick, John Whiting, Richard J. Klein, II, Eric C. Peterson, Chad J. Zalkin, Warren C. Couvillion, JR., Stephen R. Gray
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Publication number: 20090269798Abstract: Described herein is a method and corresponding system, including reagents and assays, for determining the in vivo efficacy of drugs in the course of chemotherapy. The method can include identifying a patient having a condition, such as leukemia, that is potentially susceptible to one or more candidate drugs having a particular in vivo biochemical activity, such as the generation of reactive oxygen or nitrogen species. An in vitro biochemical assay is provided that corresponds to the biochemical activity, and a tissue sample is tested to determine the responsiveness of the tissue sample to the biochemical activity, for instance, the ability of the tissue sample to degrade or inhibit the active species (in this case, hydrogen peroxide), and thereby prevent its desired effect against the cancerous cells. A course of chemotherapy can be based, at least in part, on the responsiveness of the tissue sample to the biochemical activity.Type: ApplicationFiled: April 24, 2009Publication date: October 29, 2009Applicant: UNIVERSITY OF NORTHERN IOWA RESEARCH FOUNDATIONInventors: Lisa A. Beltz, John A. Bumpus