Carsten Weinhold from Scranton, PA, age 61

Debiteuse Made Of Ceramic For Plate Glass Production

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US Patent:

6883350, Apr 26, 2005

Filed:

Jul 26, 2002

Appl. No.:

10/206903

Inventors:

Erich Rodek - Mainz, DE
Wolfgang Muench - Bubenheim, DE
Carsten Weinhold - Clarks Summit PA, US
Rudolf Singer - Engelstadt, DE

Assignee:

Schott AG - Mainz

International Classification:

C03B015/06

US Classification:

65338, 65344

Abstract:

A hot forming unit or debiteuse for plate glass production, with a noble metal box or frame encompassed by and contained in a highly heat-resistant ceramic frame and having a drawing slot matched to a cross section of a plate glass sheet to be produced. The dimensional integrity of the drawing slot of the noble metal frame is assured because the ceramic frame is constructed of longitudinal components and lateral components, where the longitudinal components of the ceramic frame and the longitudinal legs of the noble metal box rest against one another and are held so that they can still move axially against each other in a limited fashion. The longitudinal legs of the noble metal box are held in a stretched position by tension springs.

Optical Elements And Imaging Optics Comprising Them

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US Patent:

7324285, Jan 29, 2008

Filed:

Sep 20, 2006

Appl. No.:

11/523845

Inventors:

Steffen Reichel - Mehlingen, DE
Wolfram Beier - Essenheim, DE
Frank-Thomas Lentes - Bingen, DE
Yoshio Okano - Mainz, DE
Jochen Alkemper - Klein-Winterheim, DE
Jose Zimmer - Ingelheim, DE
Joseph S. Hayden - Clarks Summit PA, US
Carsten Weinhold - Clarks Summit PA, US
Ulrich Peuchert - Bodenheim, DE
Martin Letz - Mainz, DE

Assignee:

Schott AG - Mainz

International Classification:

G02B 1/00
G02B 9/00
C03C 3/00
C03C 14/00

US Classification:

359642, 359754, 359796, 501 11, 501 32

Abstract:

The optical elements are made from an opto-ceramic material that is characterized by high density, transparency for visible light and IR, high refractive index, high Abbe number and outstanding relative partial dispersion. Mixed oxides are sintered to obtain the opto-ceramic material. The mixed oxides contain zirconium oxide and hafnium oxide mixed with one or more oxides of yttrium, scandium, lanthanide elements, and optionally mixed with one or more of SiO, NaO, and TiO. Alternatively the mixed oxides contain zirconium oxide and hafnium oxide mixed with CaO and/or MgO and optionally mixed with one or more of SiO, NaO, and TiO. In addition, the mixed oxides can also include one or more oxides of Al, Ga, In, and Sc; optionally one or more oxides of yttrium, some lanthanide elements; and optionally one or more of SiO, NaO, MgO, CaO, and TiO.

Opto-Ceramics Made From Inoor Oxides Y, Lu, Sc, Yb, In, Gd, And La, Optical Elements Made Therefrom, And Mapping Optics Including The Optical Elements

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US Patent:

7700510, Apr 20, 2010

Filed:

Jun 12, 2007

Appl. No.:

11/761766

Inventors:

Guenther Kron - Mainz, DE
Ulrich Peuchert - Bodenheim, DE
Joseph S. Hayden - Clarks Summit PA, US
Carsten Weinhold - Scranton PA, US
Yvonne Menke - Mainz, DE
Yoshio Okano - Mainz, DE

Assignee:

Schott AG - Mainz

International Classification:

C04B 35/50
C04B 35/505
G02B 1/02
G02B 3/00

US Classification:

501152, 359642

Abstract:

The opto-ceramics and optical elements of the present invention are transmissive to visible light and/or to infrared radiation. They consist of a crystal combination in which individual crystallites have a cubic structure of the type YOand are made from InOor a mixture of oxides of the type XOin which X=Y, Lu, Sc, Yb, In, Gd, or La. Also mixtures of XOwith oxides having different stoichiometries, such as zirconium and hafnium oxide, are possible, as long as the cubic structure of the opto-ceramic is maintained. The optical elements prepared from the opto-ceramics are particularly suitable for mapping optics, such as objectives having reduced chromatic aberrations, in particular with approximately apochromatic mapping behavior. The optical elements of the present invention may be used in lens systems in combination with lenses of glass, but also with other ceramic lenses.

Method And Apparatus For Spray-Forming Melts Of Glass And Glass-Ceramic Compositions

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US Patent:

7827822, Nov 9, 2010

Filed:

Jul 25, 2007

Appl. No.:

11/878625

Inventors:

Carsten Weinhold - Scranton PA, US
David John Yuhas - Clarks-Summit PA, US

Assignee:

Schott Corporation - Elmsford NY

International Classification:

C03B 19/10
C03B 37/005
B22F 9/00
B22F 9/06

US Classification:

65 211, 75331, 75338

Abstract:

The invention relates to a process and apparatus for forming a particulate composition, especially a particle glass composition, through the use of shock waves. A nozzle element is utilized having inlets for introduction of cold and heated gas and a delivery tube for introducing molten material. Through the introduction of the cold and heated gases, droplets are formed from a molten stream, a cone-shaped standing shock wave is formed, and shock waves are formed via a modified Hartmann-Sprenger chamber, the shock waves impinging on the droplet stream to break up the larger droplets.

Rare Earth Aluminoborosilicate Glass Composition

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US Patent:

8361917, Jan 29, 2013

Filed:

Aug 5, 2010

Appl. No.:

12/851034

Inventors:

Hong Li - Sewickley PA, US
Carsten Weinhold - Scranton PA, US

Assignee:

Schott Corporation - Elmsford NY

International Classification:

C03C 3/068
C03C 3/064
C03C 3/095

US Classification:

501 78, 501 77, 501 64

Abstract:

The invention relates to aluminoborosilicate-based glasses suitable for use as a solid laser medium. In particular, these aluminoborosilicate-based laser glasses exhibit broad emission bandwidths of rare earth lasing ions. Although not entirely understood, the broadening of the emission bandwidth is believed to be achieved by the presence of significant amounts of lanthanide ions in the glass matrix. In addition, because of the high values of Young's modulus, fracture toughness and hardness, the rare earth aluminoborosilicate glass system according to the invention is also suitable as transparent armor window material.

Lightweight Transparent Armor Window

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US Patent:

8603616, Dec 10, 2013

Filed:

Mar 20, 2008

Appl. No.:

12/052021

Inventors:

Carsten Weinhold - Scranton PA, US

Assignee:

Schott Corporation - Elmsford NY

International Classification:

B32B 7/02
B32B 27/32
B32B 9/00
B32B 17/06
F41H 5/00
C03C 1/00

US Classification:

428212, 428220, 428412, 4284256, 428428, 428415, 89917, 89903, 89910

Abstract:

The invention relates to a lightweight transparent armor laminate comprising layers of borosilicate glass, layers of transparent glass-ceramics and a polymer spall layer of polycarbonate and/or polymethyl methacrylate. The layers are bound by polyurethane and/or polyvinylbutyral interlayer films.

Method And Apparatus For The Hot Shaping Of Molten Gobs

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US Patent:

20020194870, Dec 26, 2002

Filed:

May 13, 2002

Appl. No.:

10/144009

Inventors:

Norbert Greulich-Hickmann - Mainz, DE
Andreas Langsdorf - Ingelheim, DE
Christinan Kunert - Mainz, DE
Carsten Weinhold - Clarks Summit PA, US

International Classification:

C03B040/04

US Classification:

065/025100, 065/026000, 065/169000, 065/182200, 065/304000, 065/374120

Abstract:

The invention relates to a method for the hot shaping of molten gobs on a mold base by interposing a gas bed, comprising the following method steps. According to the invention such a method comprises the following method steps: a mold base made of open-pore mold material is produced; the supporting surface of the mold base is coated permanently with a glass contact material; such a coating material is chosen or the coating is arranged in such a way that the layer comprises open pores after its application which allow a gas-conductive connection between the lower side and the upper side of the layer; the mold base is charged with a gas in order to produce a gas bed on the upper side of the layer.

Method And Apparatus For The Hot Shaping Of Molten Gobs

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US Patent:

20050028561, Feb 10, 2005

Filed:

Sep 7, 2004

Appl. No.:

10/935613

Inventors:

Norbert Greulich-Hickmann - Mainz, DE
Andreas Langsdorf - Ingelheim, DE
Christian Kunert - Mainz, DE
Carsten Weinhold - Clarks Summit PA, US

International Classification:

C03B040/02

US Classification:

065182200, 065374110, 065374120

Abstract:

The invention relates to a method for the hot shaping of molten gobs on a mold base by interposing a gas bed, comprising the following method steps. According to the invention such a method comprises the following method steps: a mold base made of open-pore mold material is produced; the supporting surface of the mold base is coated permanently with a glass contact material; such a coating material is chosen or the coating is arranged in such a way that the layer comprises open pores after its application which allow a gas-conductive connection between the lower side and the upper side of the layer; the mold base is charged with a gas in order to produce a gas bed on the upper side of the layer.

Carsten Weinhold

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Us Patents

Debiteuse Made Of Ceramic For Plate Glass Production

Optical Elements And Imaging Optics Comprising Them

Opto-Ceramics Made From Inoor Oxides Y, Lu, Sc, Yb, In, Gd, And La, Optical Elements Made Therefrom, And Mapping Optics Including The Optical Elements

Method And Apparatus For Spray-Forming Melts Of Glass And Glass-Ceramic Compositions

Rare Earth Aluminoborosilicate Glass Composition

Lightweight Transparent Armor Window

Method And Apparatus For The Hot Shaping Of Molten Gobs

Method And Apparatus For The Hot Shaping Of Molten Gobs

Carsten Weinhold

Carsten Weinhold