Patents by Inventor Anvesh Gurijala
Anvesh Gurijala 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: 11840028Abstract: The present invention generally relates to fiber-reinforced composites, including carbon-fiber composites. These materials are useful in load-bearing components for mechanical systems, and other applications. Surprisingly, the carbon fibers can be aligned using an applied magnetic field applied directly to the carbon fibers, rather than to magnetic materials that are used to indirectly align the carbon fibers. For example, the carbon fibers may exhibit an anisotropic diamagnetic response in response to a magnetic field, which can be used to align the fibers. In some cases, the carbon fibers may be relatively pure, and/or have a relatively high modulus, which may result in diamagnetic properties. Other embodiments are generally directed to systems and methods for making or using such composites, kits involving such composites, or the like.Type: GrantFiled: December 9, 2019Date of Patent: December 12, 2023Assignee: Boston Materials, Inc.Inventors: Robert Mone, Anvesh Gurijala
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Patent number: 11820880Abstract: The present disclosure generally relates to systems and methods for composites, including carbon fiber-metal composites. In some cases, the composites may be formed from one, two, or more layers of metals or other substrates, sandwiching a plurality of aligned fibers. The fibers may be substantially aligned, and may be present at relatively high densities within the composite. The composites may be prepared, in some aspects, by dispersing fibers by neutralizing the electrostatic interactions between the fibers, for example using aqueous liquids containing the fibers that are able to neutralize the electrostatic interactions that typically occur between the fibers. In some cases, the fibers may be aligned using techniques such as shear flow and/or magnetism. Other aspects are generally directed to methods of using such composites, kits including such composites, or the like.Type: GrantFiled: July 9, 2020Date of Patent: November 21, 2023Assignee: Boston Materials, Inc.Inventors: Anvesh Gurijala, Randall Morgan Erb, Rasam Soheilian
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Patent number: 11787134Abstract: The present invention generally relates to fiber-reinforced composites, including carbon-fiber composites. These materials are useful in load-bearing components for mechanical systems, and other applications. Surprisingly, the carbon fibers can be aligned using an applied magnetic field applied directly to the carbon fibers, rather than to magnetic materials that are used to indirectly align the carbon fibers. For example, the carbon fibers may exhibit an anisotropic diamagnetic response in response to a magnetic field, which can be used to align the fibers. In some cases, the carbon fibers may be relatively pure, and/or have a relatively high modulus, which may result in diamagnetic properties. Other embodiments are generally directed to systems and methods for making or using such composites, kits involving such composites, or the like.Type: GrantFiled: December 9, 2019Date of Patent: October 17, 2023Assignee: Boston Materials, Inc.Inventors: Robert Mone, Anvesh Gurijala
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Patent number: 11767415Abstract: The present disclosure generally relates to systems and methods for composites, including short-fiber films and other composites. In certain aspects, composites comprising a plurality of aligned fibers are provided. The fibers may be substantially aligned, and may be present at relatively high densities within the composite. For example, the composite may include substantially aligned carbon fibers embedded within a thermoplastic substrate. The composites may be prepared, in some aspects, by dispersing fibers by neutralizing the electrostatic interactions between the fibers, for example using aqueous liquids containing the fibers that are able to neutralize the electrostatic interactions that typically occur between the fibers. The liquids may be applied to a substrate, and the fibers may be aligned using techniques such as shear flow and/or magnetism. Other aspects are generally directed to methods of using such composites, kits including such composites, or the like.Type: GrantFiled: May 13, 2022Date of Patent: September 26, 2023Assignee: Boston Materials, Inc.Inventors: Rasam Soheilian, Anvesh Gurijala
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Publication number: 20230272256Abstract: The present disclosure generally relates to thermally conductive aligned materials for a variety of purposes, including as thermal interface materials for semiconductor devices or other applications. Certain aspects are directed to compositions comprising discontinuous fibers that may be substantially aligned, e.g., defining a substrate. The composition may also include a polymer or a phase change material in contact with at least some of the discontinuous fibers. The discontinuous fibers may include carbon fibers in some cases. In some cases, the discontinuous fibers are aligned so as to facilitate heat transfer, e.g., along the direction that the fibers are aligned. Other aspects are generally directed to devices using such compositions, methods of making such compositions, kits including such compositions, or the like.Type: ApplicationFiled: February 2, 2023Publication date: August 31, 2023Applicant: Boston Materials, Inc.Inventors: Chunzhou Pan, Caitlin Nicole Hirschler, Darcy Hornberger, Anvesh Gurijala
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Publication number: 20230002591Abstract: The present disclosure generally relates to systems and methods for composites, including short-fiber films and other composites. In certain aspects, composites comprising a plurality of aligned fibers are provided. The fibers may be substantially aligned, and may be present at relatively high densities within the composite. For example, the composite may include substantially aligned carbon fibers embedded within a thermoplastic substrate. The composites may be prepared, in some aspects, by dispersing fibers by neutralizing the electrostatic interactions between the fibers, for example using aqueous liquids containing the fibers that are able to neutralize the electrostatic interactions that typically occur between the fibers. The liquids may be applied to a substrate, and the fibers may be aligned using techniques such as shear flow and/or magnetism. Other aspects are generally directed to methods of using such composites, kits including such composites, or the like.Type: ApplicationFiled: May 13, 2022Publication date: January 5, 2023Applicant: Boston Materials, Inc.Inventors: Rasam Soheilian, Anvesh Gurijala
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Patent number: 11479656Abstract: The present disclosure generally relates to systems and methods for composites, including short-fiber films and other composites. In certain aspects, composites comprising a plurality of aligned fibers are provided. The fibers may be substantially aligned, and may be present at relatively high densities within the composite. For example, the composite may include substantially aligned carbon fibers embedded within a thermoplastic substrate. The composites may be prepared, in some aspects, by dispersing fibers by neutralizing the electrostatic interactions between the fibers, for example using aqueous liquids containing the fibers that are able to neutralize the electrostatic interactions that typically occur between the fibers. The liquids may be applied to a substrate, and the fibers may be aligned using techniques such as shear flow and/or magnetism. Other aspects are generally directed to methods of using such composites, kits including such composites, or the like.Type: GrantFiled: July 9, 2020Date of Patent: October 25, 2022Assignee: Boston Materials, Inc.Inventors: Rasam Soheilian, Anvesh Gurijala
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Publication number: 20220001631Abstract: The present invention generally relates to fiber-reinforced composites, including carbon-fiber composites. These materials are useful in load-bearing components for mechanical systems, and other applications. Surprisingly, the carbon fibers can be aligned using an applied magnetic field applied directly to the carbon fibers, rather than to magnetic materials that are used to indirectly align the carbon fibers. For example, the carbon fibers may exhibit an anisotropic diamagnetic response in response to a magnetic field, which can be used to align the fibers. In some cases, the carbon fibers may be relatively pure, and/or have a relatively high modulus, which may result in diamagnetic properties. Other embodiments are generally directed to systems and methods for making or using such composites, kits involving such composites, or the like.Type: ApplicationFiled: December 9, 2019Publication date: January 6, 2022Applicant: Boston Materials, Inc.Inventors: Robert Mone, Anvesh Gurijala
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Publication number: 20210008840Abstract: The present disclosure generally relates to systems and methods for composites, including carbon fiber-metal composites. In some cases, the composites may be formed from one, two, or more layers of metals or other substrates, sandwiching a plurality of aligned fibers. The fibers may be substantially aligned, and may be present at relatively high densities within the composite. The composites may be prepared, in some aspects, by dispersing fibers by neutralizing the electrostatic interactions between the fibers, for example using aqueous liquids containing the fibers that are able to neutralize the electrostatic interactions that typically occur between the fibers. In some cases, the fibers may be aligned using techniques such as shear flow and/or magnetism. Other aspects are generally directed to methods of using such composites, kits including such composites, or the like.Type: ApplicationFiled: July 9, 2020Publication date: January 14, 2021Applicant: Boston Materials, Inc.Inventors: Anvesh Gurijala, Randall Morgan Erb, Rasam Soheilian
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Publication number: 20210009789Abstract: The present disclosure generally relates to systems and methods for composites, including short-fiber films and other composites. In certain aspects, composites comprising a plurality of aligned fibers are provided. The fibers may be substantially aligned, and may be present at relatively high densities within the composite. For example, the composite may include substantially aligned carbon fibers embedded within a thermoplastic substrate. The composites may be prepared, in some aspects, by dispersing fibers by neutralizing the electrostatic interactions between the fibers, for example using aqueous liquids containing the fibers that are able to neutralize the electrostatic interactions that typically occur between the fibers. The liquids may be applied to a substrate, and the fibers may be aligned using techniques such as shear flow and/or magnetism. Other aspects are generally directed to methods of using such composites, kits including such composites, or the like.Type: ApplicationFiled: July 9, 2020Publication date: January 14, 2021Applicant: Boston Materials, Inc.Inventors: Rasam Soheilian, Anvesh Gurijala
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Patent number: 10834854Abstract: In an embodiment, a process for making a thermal interface article comprises shaping a flowable composite comprising a flowable matrix composition, a plurality of magnetic, thermally conductive particles having an average length greater than a thickness or diameter, wherein the plurality of magnetic, thermally conductive particles have magnetic or superparamagnetic nanoparticles attached thereto, to provide the flowable composite in a shape comprising a first surface and an opposing second surface, and having a Z-axis perpendicular to the first surface and the opposing second surface; subjecting the flowable composite to a rotating magnetic field and to a vibrational force in an amount and for a time effective to align the average length of the plurality of magnetic, thermally conductive particles along the Z-axis; and solidifying the flowable matrix composition to provide the thermal interface, wherein the thermal interface has a Z-direction thermal conductivity of at least 1.0 W/mK.Type: GrantFiled: February 12, 2018Date of Patent: November 10, 2020Assignee: Northeastern UniversityInventors: Li Zhang, Randall Morgan Erb, Jabulani R. T. Barber, Anvesh Gurijala, Qiaochu Han
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Publication number: 20200024795Abstract: Disclosed herein are fiber-reinforced composites. These materials are useful in load-bearing components for mechanical systems, and other applications. Also disclosed herein are methods of making and using such composites, articles comprising the same, and the like. For example, some embodiments of the invention are generally directed to composites comprising discontinuous agents such as fibers or platelets which are positioned within a substrate, e.g., formed from a plurality of continuous fibers. In some cases, the discontinuous agents may be substantially aligned, for example, by attaching magnetic particles onto the agents and using a magnetic field to manipulate the agents. Other embodiments are generally directed to systems and methods for making or using such composites, kits involving such composites, or the like.Type: ApplicationFiled: March 12, 2018Publication date: January 23, 2020Applicant: Boston Materials, Inc.Inventors: Anvesh Gurijala, Michael Segal
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Publication number: 20190077661Abstract: A method of preparing a boron nitride foam includes flowing a gaseous medium along a flow path; introducing into the flow path a flowable composition that includes boron nitride sheets, a suspending agent, and optionally a surfactant to foam the flowable composition in the flow path; outputting the foamed flowable composition from the flow path; and solidifying the outputted flowable composition to provide the boron nitride foam; wherein the boron nitride foam has a structure defined by a three-dimensional network of interconnected cells defined by cell walls, wherein the cell walls include the boron nitride sheets.Type: ApplicationFiled: September 13, 2018Publication date: March 14, 2019Inventors: RANDALL MORGAN ERB, ANVESH GURIJALA, LI ZHANG, QIAOCHU HAN
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Publication number: 20180249593Abstract: In an embodiment, a process for making a thermal interface article comprises shaping a flowable composite comprising a flowable matrix composition, a plurality of magnetic, thermally conductive particles having an average length greater than a thickness or diameter, wherein the plurality of magnetic, thermally conductive particles have magnetic or superparamagnetic nanoparticles attached thereto, to provide the flowable composite in a shape comprising a first surface and an opposing second surface, and having a Z-axis perpendicular to the first surface and the opposing second surface; subjecting the flowable composite to a rotating magnetic field and to a vibrational force in an amount and for a time effective to align the average length of the plurality of magnetic, thermally conductive particles along the Z-axis; and solidifying the flowable matrix composition to provide the thermal interface, wherein the thermal interface has a Z-direction thermal conductivity of at least 1.0 W/mK.Type: ApplicationFiled: February 12, 2018Publication date: August 30, 2018Inventors: Li Zhang, Randall Morgan Erb, Jabulani R.T. Barber, Anvesh Gurijala, Qiaochu Han