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George E Sakoske, 635000 Lake Charles Dr, Cleveland, OH 44131

Known as:
George Emil Sakoske Flora Sakoske George Sakowske
Related to:
Wesley J Hogue 49

George Sakoske Phones & Addresses

5000 Lake Charles Dr, Independence, OH 44131    216-2644037   

1321 Giesse Dr, Cleveland, OH 44124   

Broadview Heights, OH   

Senecaville, OH   

438 Washington St, Chagrin Falls, OH 44022   

17158 Woodmere Dr, Chagrin Falls, OH 44023    440-7081064   

Kingsville, OH   

Washington, PA   

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George E Sakoske

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Work

Company: Glass coatings & concepts May 2020 Position: President and general manager

Education

Degree: Doctorates, Doctor of Philosophy School / High School: Case Western Reserve University 1985 to 1994 Specialities: Materials Science, Engineering, Philosophy

Skills

Materials Science • Glass • R&D • Coatings • Product Development • Materials • Process Engineering • Manufacturing • Polymers • Design of Experiments • Chemistry • Continuous Improvement • Six Sigma • Engineering • Process Simulation • Lean Manufacturing • Adhesives • Process Improvement • Cross Functional Team Leadership • Characterization • Project Management • Iso • Plastics • Sap • Chemical Engineering • Spc • Research and Development • Quality Management • Extrusion • Root Cause Analysis • Nanotechnology • Raw Materials • Additives • Manufacturing Operations Management • Kaizen • Chemical Plants • Thin Films • Program Management • Chemical Processing • Process Optimization • Business Process Improvement

Industries

Glass, Ceramics, & Concrete
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George Sakoske resumes & CV records

Resumes

George Sakoske Photo 11

President And General Manager

Location:
Pittsburgh, PA
Industry:
Glass, Ceramics, & Concrete
Work:
Glass Coatings & Concepts
President and General Manager Ferro Corporation Feb 2013 - May 2019
Global R and D Director, Color Solutions Ferro Corporation Nov 2009 - Feb 2013
Global Technology Director, Glass Systems Ferro Corporation Sep 2002 - Nov 2009
Global Technology Manager, Glass Systems Ferro Corporation Apr 1999 - Sep 2002
Director Glass Development Cerdec Corporation Jan 1997 - Apr 1999
Manager Glass Development Cerdec Corporation Drakenfeld Products Sep 1994 - Jan 1997
Staff Scientist Ge Sep 1992 - Sep 1994
Materials Scientist Ge Jun 1985 - Sep 1992
Research Ceramist Ge Jun 1983 - Jun 1985
Edison Engineer
Education:
Case Western Reserve University 1985 - 1994
Doctorates, Doctor of Philosophy, Materials Science, Engineering, Philosophy Case Western Reserve University 1985 - 1988
Masters, Materials Science Alfred University 1979 - 1983
Bachelors, Bachelor of Arts, Bachelor of Science, Chemistry
Skills:
Materials Science, Glass, R&D, Coatings, Product Development, Materials, Process Engineering, Manufacturing, Polymers, Design of Experiments, Chemistry, Continuous Improvement, Six Sigma, Engineering, Process Simulation, Lean Manufacturing, Adhesives, Process Improvement, Cross Functional Team Leadership, Characterization, Project Management, Iso, Plastics, Sap, Chemical Engineering, Spc, Research and Development, Quality Management, Extrusion, Root Cause Analysis, Nanotechnology, Raw Materials, Additives, Manufacturing Operations Management, Kaizen, Chemical Plants, Thin Films, Program Management, Chemical Processing, Process Optimization, Business Process Improvement

Publications & IP owners

Us Patents

Glass Frit Compositions For Enamels

US Patent:
2012028, Nov 8, 2012
Filed:
May 4, 2011
Appl. No.:
13/100399
Inventors:
Sandeep K. Singh - Strongsville OH, US
George E. Sakoske - Washington PA, US
David A. Klimas - Pittsburgh PA, US
Assignee:
FERRO CORPORATION - Cleveland OH
International Classification:
B05D 3/02
C03C 8/18
C03C 8/14
C03C 8/20
C03C 8/06
C03C 8/04
US Classification:
4273763, 501 25, 501 26, 501 17, 501 18, 501 19
Abstract:
This invention relates to glass and enamel compositions. The glass compositions comprise SiO, CsO, NaO, ZnO, BO, and TiO, and optionally BiOand F. The resulting compositions can be used to form an enamel on a substrate, for example, to decorate and/or protect the substrate.

Materials For Improved Adhesion Relating To Functional Cold End Coatings (Cecs) And Methods Of Detecting Same

US Patent:
2013004, Feb 14, 2013
Filed:
Jan 21, 2011
Appl. No.:
13/579057
Inventors:
Cindy Pankiewicz - Bridgeville PA, US
Thirumalai Duraisamy - Pittsburgh PA, US
Bertram Gardner - Apollo PA, US
Ian Dudas - Pittsburgh PA, US
David C. Kapp - Gibsonia PA, US
George E. Sakoske - Independence OH, US
Assignee:
FERRO CORPORATION - Mayfield Heights OH
International Classification:
C09D 7/12
G01N 21/77
US Classification:
436 79, 436164, 436128, 436 96, 106436, 106447, 106448, 1062871
Abstract:
Various agents for improving adhesion of cold end coatings on glass surfaces are described Also described are agents for improving bonding between cold end coatings and organic inks. And, methods and related detection solutions for detecting the presence of cold end coatings on a substrate such as a glass bottle are disclosed. Additionally, particular additives and primers are described that can be applied onto cold end coatings for improving adhesion thereto.

High Performance Organic, Inorganic Or Hybrid Seals

US Patent:
2013023, Sep 12, 2013
Filed:
Mar 12, 2013
Appl. No.:
13/795116
Inventors:
Chandrashekhar S. Khadilkar - Broadview Heights OH, US
Srinivasan Sridharan - Strongsville OH, US
George E. Sakoske - Independence OH, US
Assignee:
FERRO CORPORATION - Mayfield Heights OH
International Classification:
B32B 7/04
B23K 35/22
C03C 27/04
B32B 37/12
US Classification:
428 34, 156 60, 1562724, 1562728, 2282481, 65 43, 428 76, 428 77
Abstract:
The present invention describes a new method for creating hybrid edge seals using metal, alloy, powder coated metal and other conductive surfaces in between two substrates. The methods utilize various materials, seal designs, and geometries of hybrid seals based on polymeric powder coatings and glass powder coatings.

Formation Of Glass-Based Seals Using Focused Infrared Radiation

US Patent:
2014002, Jan 30, 2014
Filed:
Jul 22, 2013
Appl. No.:
13/947301
Inventors:
Chandrashekhar S. Khadilkar - Broadview Heights OH, US
Srinivasan Sridharan - Strongsville OH, US
Robert P. Blonski - North Royalton OH, US
George E. Sakoske - Independence OH, US
Assignee:
FERRO CORPORATION - Mayfield Heights OH
International Classification:
C03B 23/24
US Classification:
65 43
Abstract:
Broadband infrared radiation is used to heat and fuse an enamel paste to form an enamel seal between at least two solid substrates such as glass, ceramic or metal.

Electric Lamps Containing Electrical Leads Of A Molybdenum And Tungsten Alloy

US Patent:
5754005, May 19, 1998
Filed:
Oct 29, 1993
Appl. No.:
8/145269
Inventors:
George E. Sakoske - Chagrin Falls OH
Wayne A. Lasch - Shaker Heights OH
Joseph M. Ranish - Cleveland Heights OH
Milan R. Vukcevich - University Heights OH
Thomas H. Yu - Richmond Heights OH
Bernard W. Rachel - Highland Heights OH
Richard G. Lynce - Chesterland OH
Istvan Meszaros - Budapest, HU
Gyorgy Nagy - Budapest, HU
Tamas Gal - Hajdubooszormeny, HU
Assignee:
General Electric Company - Schenectady NY
International Classification:
H01J 1718
US Classification:
313623
Abstract:
An inlead for an electric lamp formed of an alloy of tungsten and molybdenum. The inlead has a rate of thermal expansion or contraction approximating that of the glass forming the bulb. This minimizes the expansion/contraction mis-match stress between the two materials. In addition, the alloy composition functions to reduce oxidation and degradation of the lead.

Fluorescent Lamp With Protected Cathode To Reduce End Darkening

US Patent:
5686795, Nov 11, 1997
Filed:
Oct 23, 1995
Appl. No.:
8/546855
Inventors:
George E. Sakoske - Mayfield Heights OH
Johnson M. Kachidza - Cleveland Heights OH
Richard C. Nagle - North Royalton OH
Assignee:
General Electric Company - Schenectady NY
International Classification:
H10J 6110
US Classification:
313613
Abstract:
A low-pressure mercury vapor discharge lamp (10) includes a tubularly-shaped envelope (12) sealed at each end with a stem assembly (14). A fluorescent coating (26) is disposed on the interior surface of the envelope (12) and an electric discharge sustaining fill gas is provided within a hollow interior (24) of the envelope (12). Each stem assembly (14) includes a glass base portion (30) which seals the end of the envelope (12), an electrode (16), and a tubularly-shaped, light-transmissive, glass shield (22). The electrode (16) is disposed within the envelope (12) such that an electric discharge occurs between the electrodes (16) upon operation of the lamp (10). The glass shield (22) extends past the electrode (16) to partially surround the electrode (16) and shield the interior surface of the envelope (12) from material ejected from the electrode (16). The glass shield (22) allows the electric discharge to unaffectedly pass through an open end (42). Structural variations for supporting the glass shield (22) are also disclosed.

Laser Marking Method And Apparatus

US Patent:
6238847, May 29, 2001
Filed:
Oct 16, 1997
Appl. No.:
8/951411
Inventors:
Enos Ayres Axtell - Bridgeville PA
David C. Kapp - Gibsonia PA
Timothy A. Knell - McMurray PA
Miroslav Novotny - Denville NJ
George Emil Sakoske - Mayfield Heights OH
Assignee:
DMC Degussa Metals Catalysts Cerdec AG - Frankfurt
International Classification:
G03F 700
US Classification:
430322
Abstract:
A method of laser marking substrates such as glass, ceramic, metal and plastic is disclosed. A marking material is applied to the surface of the substrate, followed by irradiation of a portion of the marking material to form a permanent marking on the substrate. The non-irradiated portion of the marking material is then removed from the substrate. The marking material may comprise glass frit or precursors thereof, inorganic pigments or precursors thereof, silicates, metal oxides, sulfides, nitrides and carbides, organometallic materials or metal powders. The marking method is highly versatile, can be performed quickly, and produces permanent marks of high resolution and contrast without damage to the substrate.

Partially Crystallizing Ceramic Enamel Composition Containing Bismuth Silicate, And Use Thereof

US Patent:
5714420, Feb 3, 1998
Filed:
Dec 8, 1995
Appl. No.:
8/569905
Inventors:
George E. Sakoske - Mayfield Heights OH
Joseph W. Ryan - Washington PA
Assignee:
Cerdec Corporation - Drakenfeld Products - Washington PA
International Classification:
C03C 100
US Classification:
501 14
Abstract:
A ceramic enamel composition consists of an oxide frit, a bismuth silicate seed material, a pigment, and a vehicle. A preferred bismuth silicate seed material is selected from crystalline Bi. sub. 12 SiO. sub. 20, Bi. sub. 4 (SiO. sub. 4). sub. 3, and Bi. sub. 2 SiO. sub. 5, and mixtures thereof. Upon firing a glass substrate coated with the enamel, components of the enamel adhere to the substrate. The glass can be formed with a die to a desired shape with reduced sticking of the coated region to the die. The ceramic enamel is particularly useful in providing a colored border around automotive glass, which enhances appearance and reduces degradation of adhesives by ultraviolet radiation.

Possible Relatives

George S Last  George N Johnson  George A Stamps  George G Stancil  George E Standish  George D Standley  George R Johnston  George Stanfield  George L Stanfill  George White 

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