Patents by Inventor Christoph Groß
Christoph Groß 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: 12205431Abstract: A method of operating a storage and dispensing station for drug portions includes rotatably disposing a singulating device in a storage container, providing, with a conductor device, an electrically conductive coupling between the singulating device and a contact, and dissipating an electrical charge from the singulating device.Type: GrantFiled: October 27, 2023Date of Patent: January 21, 2025Assignee: Becton Dickinson Rowa Germany GmbHInventors: Christoph Hellenbrand, Dietmar Gross
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Publication number: 20240279101Abstract: A process for producing glass tubes includes: applying a glass melt onto an outer surface of a rotating conical mandrel by guiding the glass melt from a feed tank through an outlet; forming a hollow glass melt body on the conical mandrel; drawing the hollow glass melt body from the conical mandrel in a predetermined direction toward a front end for forming a glass tube, the outer surface having a wetting zone where the glass strand first contacts the conical mandrel, a spatial variation of the wetting zone of the applied glass melt being monitored by measuring a horizontal movement of an edge of the glass strand; reducing the spatial variation by adjusting one or more process parameters; cooling the hollow glass melt body; and cutting the cooled glass melt body into glass tubes.Type: ApplicationFiled: April 10, 2024Publication date: August 22, 2024Applicant: Schott AGInventors: Thomas Lenz, Andreas Langsdorf, Fabian Etzold, Christoph Gross, Ulrich Lange, Markus Ollig, Arne Riecke, Wolfgang Wallat
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Publication number: 20240174550Abstract: A glass composition includes oxides which form non-volatile fluorides at a temperature of 150° C. and a pressure of 5 Pa or less and are present in an amount of less than 0.5 mol % in the glass composition, based on all oxides present in the glass composition. A working point of the glass composition is 1400° C. or less. The glass composition has a hydrolytic resistance characterized by a leachability of GeO2, P2O5 and/or B2O3 from the glass composition determined as concentrations in an eluate prepared according to ISO 719 of at least one of the following: less than 70 mg/l GeO2 in the eluate per 1 mol % GeO2 in the glass composition; less than 70 mg/l P2O5 in the eluate per 1 mol % P2O5 in the glass composition; or less than 300 mg/l B2O3 in the eluate per 1 mol % B2O3 in the glass composition.Type: ApplicationFiled: December 22, 2023Publication date: May 30, 2024Applicant: Schott AGInventors: Ulrich Fotheringham, Azatuhi Ayrikyan, Thomas Pfeiffer, Simone Monika Ritter, Silke Wolff, Tobias Gotschke, Christoph Groß, Antje Klemm, Jens Ulrich Thomas, Martin Letz
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Patent number: 11981593Abstract: A glass tube, such as a glass tube for the production of containers for storage of pharmaceutical compositions, facilitates production of pharmaceutical containers with high quality. The glass tube has a relative cross-sectional area deviation defined as QF max - QF min 1.5 ? ? m . QF max - QF min 1.5 ? ? m is less than k*x+t. QFmax is the highest cross-sectional area and QFmin is the lowest cross-sectional area of at least two cross-sections of the glass tube, the cross-sections being spaced apart from each other along a length of the glass tube, and k is 0.0023 m?1, t is less than 0.15 mm2/m and x is QF max + QF min 2 .Type: GrantFiled: May 6, 2021Date of Patent: May 14, 2024Assignee: Schott AGInventors: Thomas Lenz, Andreas Langsdorf, Fabian Etzold, Christoph Gross, Ulrich Lange, Markus Ollig, Arne Riecke, Wolfgang Wallat
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Publication number: 20240092687Abstract: A lithium aluminum silicate (LAS) glass-ceramic has an average coefficient of thermal expansion (CTE) in a range from 0 to 50° C. of at most 0±0.1×10?6/K and a thermal hysteresis at least in a temperature range from 15° C. to 35° C. of <0.1 ppm. The LAS glass-ceramic includes (in mol % based on oxide): SiO2 60-<70; Li2O 7-9.6; MgO+ZnO>0.5-1.5; R2O>0.5, where R2O is Na2O and/or K2O and/or Cs2O and/or Rb2O; and nucleating agent with a content of 1.5 to 6 mol %. The nucleating agent is at least one component selected from the group consisting of TiO2, ZrO2, Ta2O5, Nb2O5, SnO2, MoO3, WO3 and HfO2.Type: ApplicationFiled: September 15, 2023Publication date: March 21, 2024Applicant: Schott AGInventors: Ina Mitra, Sonja Lauer, Clemens Kunisch, Christoph Gross
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Publication number: 20210347670Abstract: A glass tube, such as a glass tube for the production of containers for storage of pharmaceutical compositions, facilitates production of pharmaceutical containers with high quality. The glass tube has a relative cross-sectional area deviation defined as QF max - QF min 1.5 ? ? m . QF max - QF min 1.5 ? ? m is less than k*x+t. QFmax is the highest cross-sectional area and QFmin is the lowest cross-sectional area of at least two cross-sections of the glass tube, the cross-sections being spaced apart from each other along a length of the glass tube, and k is 0.0023 m?1, t is less than 0.15 mm2/m and x is QF max + QF min 2 .Type: ApplicationFiled: May 6, 2021Publication date: November 11, 2021Applicant: Schott AGInventors: Thomas Lenz, Andreas Langsdorf, Fabian Etzold, Christoph Gross, Ulrich Lange, Markus Ollig, Arne Riecke, Wolfgang Wallat
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Patent number: 10822265Abstract: A glass having a good hydrolytic resistance and alkali resistance is defined by a targeted combination of stoichiometric glasses, including glasses also existing as crystals in the same stoichiometry and whose properties can be assumed as being very similar due to the identical topology of the structural units for glass and crystal, respectively. A process of producing the glasses is also provided.Type: GrantFiled: February 8, 2018Date of Patent: November 3, 2020Assignee: Schott AGInventors: Ulrich Fotheringham, Michael Schwall, Simone Ritter, Peter Naß, Christof Kass, Christoph Berndhäuser, Christoph Groß
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Publication number: 20200010356Abstract: A glass, a glass article made of the glass as well as uses and production methods are disclosed. The glass constituents are selected such that excellent scratch resistance and impact strength are provided. The glass has a composition characterized by the following constituent phases: 15-60 mol % reedmergnerite; 20-60 mol % albite; 0-20 mol % nepheline; 0-20 mol % orthoclase; 0-20 mol % parakeldyshite; 0-20 mol % narsarsukite; 0.1-30 mol % disodium zinc silicate; 0-4 mol % diboron trioxide; 0-20 mol % cordierite; and 0-20 mol % danburite. A quotient of a coefficient of thermal expansion of the glass multiplied by 1000 (in ppm/K) and the product of a pH value and a removal rate in alkaline environment (in mg/(dm23h)) according to ISO 695 is at least 8 and the removal rate in alkaline environment according to ISO 695 is at most 115 mg/(dm23h).Type: ApplicationFiled: July 2, 2019Publication date: January 9, 2020Applicant: Schott AGInventors: Ulrich Fotheringham, Holger Wegener, Oliver Hochrein, Simone Monika Ritter, Wolfgang Mannstadt, Christoph Berndhäuser, Christoph Gross
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Publication number: 20200010353Abstract: A glass is described, a glass article made of the glass as well as uses and production methods. The glass constituents are selected such that it results in excellent chemical stability and ion ex-changeability. The glass has a composition characterized by the following glass constituent phases: 0-35 mol % reedmergnerite; 10-60 mol % albite; 3.5-25 mol % orthoclase; 0-40 mol % natrosilite; 0-20 mol % parakeldyshite; 0-20 mol % narsarsukite; 0-35 mol % disodium zinc silicate; 0-35 mol % silicon dioxide; 0-30 mol % cordierite; and 0-20 mol % danburite. A quotient of a coefficient of thermal expansion of the glass multiplied by 1000 (in ppm/K) and the product of a pH value and a removal rate in alkaline environment (in mg/(dm23h)) according to ISO 695 is at least 9.25.Type: ApplicationFiled: July 2, 2019Publication date: January 9, 2020Applicant: Schott AGInventors: Ulrich Fotheringham, Holger Wegener, Oliver Hochrein, Simone Monika Ritter, Wolfgang Mannstadt, Christoph Berndhäuser, Christoph Gross
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Publication number: 20200010355Abstract: The present invention relates to glasses, such as e.g. thin or thinnest glasses, but also to glasses for the production of tubular glass, carpules and syringes as well as other pharmaceutical vessels. The glasses are characterized by a high chemical prestressability (tem-perability) with very well alkali, hydrolytic and/or acid resistance as well as an advantageous coefficient of thermal expansion. The glass has a composition characterized by the following constituent phases: 0-60 mol % reedmergnerite; 20-60 mol % albite; 0-30 mol % orthoclase; 0-20 mol % natrosilite; 0-20 mol % sodium metasilicate; 0-20 mol % parakeldyshite; 0-20 mol % narsarsukite; 0-20 mol % disodium zinc silicate; 0-21 mol % cordierite; and 0-20 mol % danburite. A quotient of a coefficient of thermal expansion of the glass multiplied by 1000 (in ppm/K) and the product of a pH value and a removal rate in alkaline environment (in mg/(dm23h)) according to ISO 695 is at least 9.0.Type: ApplicationFiled: July 2, 2019Publication date: January 9, 2020Applicant: Schott AGInventors: Ulrich Fotheringham, Holger Wegener, Oliver Hochrein, Simone Monika Ritter, Wolfgang Mannstadt, Christoph Berndhäuser, Christoph Groß
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Publication number: 20180222791Abstract: A glass having a good hydrolytic resistance and alkali resistance is defined by a targeted combination of stoichiometric glasses, including glasses also existing as crystals in the same stoichiometry and whose properties can be assumed as being very similar due to the identical topology of the structural units for glass and crystal, respectively. A process of producing the glasses is also provided.Type: ApplicationFiled: February 8, 2018Publication date: August 9, 2018Applicant: Schott AGInventors: Ulrich Fotheringham, Michael Schwall, Simone Ritter, Peter Naß, Christof Kass, Christoph Berndhäuser, Christoph Groß
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Patent number: 9656913Abstract: A transparent laminate is provided that includes at least one chemically prestressed pane having a thickness, a compressive stress (CS) of a surface layer, a thickness of the prestressed surface layer and a tensile stress (CT) of an interior portion. The tensile stress (CT) is greater than 0 and is less than the compressive stress divided by 50.Type: GrantFiled: September 6, 2013Date of Patent: May 23, 2017Assignee: SCHOTT AGInventors: Ina Mitra, Andreas Langsdorf, Christoph Gross, Ulrike Stoehr, Kurt Schaupert
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Publication number: 20140072754Abstract: A transparent laminate is provided that includes at least one chemically prestressed pane having a thickness, a compressive stress (CS) of a surface layer, a thickness of the prestressed surface layer and a tensile stress (CT) of an interior portion. The tensile stress (CT) is greater than 0 and is less than the compressive stress divided by 50.Type: ApplicationFiled: September 6, 2013Publication date: March 13, 2014Applicant: Schott AGInventors: Ina MITRA, Andreas LANGSDORF, Christoph GROSS, Ulrike STOEHR, Kurt SCHAUPERT
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Publication number: 20100139550Abstract: The crucible for receiving a melt of a high-melting material has a refractory metal layer that has a melting point of at least 1800° C., which covers a part of the surface of the crucible that would otherwise come in contact with the melt. The refractory metal preferably has a thickness of less than 1 mm. It is either a coating deposited on the surface of the crucible or is a loosely connected foil applied to the surface of the crucible.Type: ApplicationFiled: December 2, 2009Publication date: June 10, 2010Inventors: Tilo Aichele, Christoph Gross, Lutz Parthier