Paul R Grzesik, 72Longboat Key, FL

6993936, Feb 7, 2006

Sep 4, 2003

10/656685

Paul R. Grzesik - Corning NY, US
Thomas D. Ketcham - Big Flats NY, US
David M. Lineman - Painted Post NY, US
Randy D. Ziegenhagen - Elmira NY, US

Corning Incorporated - Corning NY

C03B 5/42

651349, 65 53, 651351, 65195, 6537411, 6537412

A system and method for suppressing the formation of gaseous inclusions in glass sheets and the resulting glass sheets are described herein. The system includes a melting, fining, delivery, mixing or forming vessel that has a refractory metal component (e. g. , platinum component) which has an inner wall that contacts molten glass and an outer wall coated with an oxygen ion transportable material (e. g. , zirconia) which is coated with a conductive electrode. The system also includes a DC power source that supplies DC power across the oxygen ion transportable material which causes oxygen ions to migrate from the refractory metal component to the conductive electrode and enables one to control the partial pressure of oxygen around an exterior of the vessel which helps one to effectively prevent hydrogen permeation from the molten glass in order to suppress the formation of undesirable gaseous inclusions and surface blisters within the glass sheet. The present invention also helps one to effectively reduce the oxidation of external, non-glass contact surfaces of the refractory metal component.

7828480, Nov 9, 2010

Dec 20, 2007

12/004263

Lee Martin Adelsberg - Elmira NY, US
John Michael Drosdak - Big Flats NY, US
Paul Richard Grzesik - Corning NY, US
Trudy A Knutson - Frankfort KY, US
David Myron Lineman - Painted Post NY, US
Kevin Barry Reiman - Horseheads NY, US

Corning Incorporated - Corning NY

G01K 7/02

374179, 374 7035

Disclosed is a thermocouple circuit that exhibits reduced levels of thermocouple drift. The thermocouple is generally comprised of first and second thermoelectric elements formed of first and second thermoelectric materials, respectively. The first and second thermoelectric elements are coupled to an electrically conductive substrate through intermediate first and second tab elements, respectively. The first and second tab elements are preferably formed of the respective first and second thermoelectric materials, and coupled to the substrate in a spaced apart configuration such that the first and second tab elements, are not physically coupled one to the other. Also disclosed are systems and methods for the preparation and use of the thermocouple circuits disclosed herein.

2006008, Apr 27, 2006

Nov 18, 2005

11/282533

Paul Grzesik - Corning NY, US
Thomas Ketcham - Big Flats NY, US
David Lineman - Painted Post NY, US
Randy Ziegenhagen - Elmira NY, US

C03B 37/00

065376000

A system and method for suppressing the formation of gaseous inclusions in glass sheets and the resulting glass sheets are described herein. The system includes a melting, fining, delivery, mixing or forming vessel that has a refractory metal component (e.g., platinum component) which has an inner wall that contacts molten glass and an outer wall coated with an oxygen ion transportable material (e.g., zirconia) which is coated with a conductive electrode. The system also includes a DC power source that supplies DC power across the oxygen ion transportable material which causes oxygen ions to migrate from the refractory metal component to the conductive electrode and enables one to control the partial pressure of oxygen around an exterior of the vessel which helps one to effectively prevent hydrogen permeation from the molten glass in order to suppress the formation of undesirable gaseous inclusions and surface blisters within the glass sheet. The present invention also helps one to effectively reduce the oxidation of external, non-glass contact surfaces of the refractory metal component.

2008005, Mar 6, 2008

Aug 31, 2006

11/513869

Paul Richard Grzesik - Corning NY, US
David Myron Lineman - Painted Post NY, US
William Brashear Mattingly - Painted Post NY, US

B41M 5/00
C03B 11/00

4281951, 428457, 428688, 428334, 65227

A method of reducing accelerated metal loss from the inner refractory metal of a component of a glass making system. The method utilizes a sacrificial metal member which saturates free volume regions surrounding the component with an oxide vapor of the sacrificial metal member.

2009012, May 14, 2009

Nov 4, 2008

12/264562

Raymond Eugene Fraley - Waverly NY, US
Paul Richard Grzesik - Corning NY, US
James Patrick Murphy - Corning NY, US

C03B 5/02
C03B 5/23

651356, 651341, 651364, 65347

A glass making process comprising a step of fining the molten glass in a fining vessel comprising a top wall portion not in direct contact with the molten glass, and a side wall portion in direct contact with the molten glass, wherein the top wall portion has a temperature T(top), the side wall portion has a temperature T(side), and T(top)−T(side)≦10 C., and a glass fining system. The invention is particularly useful for glass fining systems comprising a metal fining vessel made of precious metals such as Pt and/or Pt—Rh alloys.

2010008, Apr 8, 2010

Oct 8, 2008

12/247400

Paul Richard Grzesik - Corning NY, US
David Myron Lineman - Painted Post NY, US
David Kenneth Vaughn - Horseheads NY, US

C03B 15/02

65 51, 65 66, 65 993, 65193

Methods and apparatus for manufacturing glass sheets that comprise the use of platinum group metal alloy or metal-alloy-clad vessels or conduits having alloy compositions including oxidizable species capable of undergoing redox reactions with molten glass components to suppress oxygen blister formation at glass contact surfaces.

2013031, Dec 5, 2013

May 29, 2012

13/482336

Paul Richard Grzesik - Corning NY, US
Ahdi El Kahlout - Lexington KY, US
Nicolas LeBlond - Painted Post NY, US
Kim E. Womer - Beaver Dams NY, US

C03B 17/06

65 53, 65195

An apparatus for downwardly drawing glass ribbon comprises edge directors, wherein an outer portion defining a first pair of surfaces and a second pair of surfaces. In one example, the first and second pair of surfaces of each edge director includes a glass wettability with a static contact angle within a range of from about 30 to about 60. In another example, the outer portion comprises a platinum alloy including from about 0.05 weight % tin to about 5 weight % tin. Methods for forming glass include the step of providing the edge director with a desired glass wettability and/or a desired platinum alloy.

4244755, Jan 13, 1981

Sep 21, 1979

6/077571

Thomas A. Brockway - Savona NY
Paul R. Grzesik - Painted Post NY
Lawrence B. Hausheer - Corning NY

Corning Glass Works - Corning NY

C21D 148

148 16

Stainless steel articles such as support pins for color television tube shadow mask assemblies are rendered resistant to the formation of surface nodules promoting tube breakage by processing through a vacuum-firing heat treatment prior to use.