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Patrick Lewis Ault

from Douglasville, GA
Age ~66
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Also known as:
Patrick L Ault, Patrick Au, Pat L Ault
Related to:
Jennifer J Ault, 59Margaret L AultJerry ThorntonKrysta S WhiteMatthew HofferShawn ThorntonJeremy B Thornton, 46Lee C AultKrysta S ThorntonBetty N Woods, 91Arin WhiteShawn W Thornton, 55Krista S White, 53Krysta S White, 53Nicholas S Ault, 31Matthew E Hoffer, 50Jerry L Thornton, 48Robert E White, 54Nancy M Ault, 73
Connected to:
Bibiana Ault, 64Christina R Ault, 61Edie T Ault, 58Harold H Ault, 73Harris Ault, 123Hazel L Ault, 99Jan C Ault, 68Larry C Ault, 82Lindsey L Ault, 41Trent R Ault, 44

Patrick Ault Phones & Addresses

  • Douglasville, GA
  • 565 Pinehurst Ct, Newark, OH 43055 (770) 489-3452
  • 107 Rivendell Dr, Anderson, SC 29621 (864) 226-9880
  • Midlothian, TX
  • 147 Laurel Ridge Ln, Cataula, GA 31804 (706) 653-6754
  • Tyler, TX
  • Orange Park, FL

Work

Company: Owens corning Dec 2012 Position: Operations manager

Education

Degree: Bachelors, Bachelor of Science School / High School: Franklin University 1996 to 2000 Specialities: Operations Management

Skills

Continuous Improvement • Lean Manufacturing • Process Improvement • Engineering • Manufacturing • Root Cause Analysis • Cmrp • Six Sigma • 5S • Kaizen • Operations Management

Industries

Glass, Ceramics, & Concrete

Resumes

Resumes

Patrick Ault Photo 1

Operations Manager

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Location:
Atlanta, GA
Industry:
Glass, Ceramics, & Concrete
Work:
Owens Corning
Operations Manager
Owens Corning Oct 2004 - Feb 2008
Operations and Maintenance Manager
Owens Corning Mar 2002 - Oct 2004
Reliability Engineer
Owens Corning Mar 2001 - Mar 2002
Maintenance Manager
Owens Corning Jan 1995 - Jan 2000
Maintenance Supervisor
Education:
Franklin University 1996 - 2000
Bachelors, Bachelor of Science, Operations Management The Ohio State University 1979 - 1983
Skills:
Continuous Improvement
Lean Manufacturing
Process Improvement
Engineering
Manufacturing
Root Cause Analysis
Cmrp
Six Sigma
5S
Kaizen
Operations Management

Publications

Us Patents

Method For Fiberizing Mineral Material With Organic Material

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US Patent:
55230318, Jun 4, 1996
Filed:
Dec 23, 1994
Appl. No.:
8/363504
Inventors:
Patrick L. Ault - Newark OH
Michael T. Pellegrin - Newark OH
James E. Loftus - Newark OH
Assignee:
Owens-Corning Fiberglas Technology, Inc. - Summit IL
International Classification:
C03B 3704
D01D 500
US Classification:
264 6
Abstract:
A method for fiberizing mineral material with organic material includes centrifuging mineral fibers from molten mineral material with a first spinner rotating about an axis, changing the direction of the mineral fibers to form a downwardly moving veil of mineral fibers, establishing a flow of molten organic material moving downwardly in a first conduit positioned within the veil, and directing the flow of molten organic material to a position beneath the spinner, dividing the flow of molten organic material into a plurality of streams, directing, by means of individual conduits, individual ones of the plurality of streams radially outwardly away from the first conduit, rotating the individual conduits about the axis, centrifuging organic fibers from the molten organic material by means of nozzles at the radially outward ends of the individual conduits, and directing the organic fibers into contact with the veil of mineral fibers.

Bicomponent Polymer Fibers Made By Rotary Process

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US Patent:
57026580, Dec 30, 1997
Filed:
Feb 29, 1996
Appl. No.:
8/608795
Inventors:
Michael T. Pellegrin - Newark OH
Patrick M. Gavin - Newark OH
Patrick L. Ault - Newark OH
James E. Loftus - Newark OH
Randall M. Haines - Frazeysburg OH
Virgil Morris - Newark OH
Assignee:
Owens-Corning Fiberglas Technology, Inc. - Summit IL
International Classification:
D01D 518
D01F 806
D01F 812
D01F 814
US Classification:
26417214
Abstract:
In a method for making bicomponent polymer fibers, first and second molten polymers are supplied to a rotating spinner having an orificed peripheral wall. The molten polymers are centrifuged through the orifices as molten bicomponent polymer streams. The streams are cooled to make bicomponent polymer fibers.

Integration Of Asphalt And Reinforcement Fibers

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US Patent:
58694137, Feb 9, 1999
Filed:
Dec 29, 1997
Appl. No.:
8/999173
Inventors:
Kevin P. Gallagher - Pataskala OH
Patrick L. Ault - Heath OH
James E. Loftus - Newark OH
Michael T. Pellegrin - Newark OH
Donn R. Vermilion - Newark OH
Frederick H. Ponn - Granville OH
International Classification:
B32B 1102
B05D 112
US Classification:
442381
Abstract:
A method for producing asphalt fibers includes supplying molten asphalt to a rotating asphalt spinner, centrifuging asphalt fibers from the asphalt spinner, and collecting the asphalt fibers. The molten asphalt is supplied to the asphalt spinner at a temperature within the range of from about 270. degree. to about 500. degree. F. Also disclosed is a method for integrating asphalt with reinforcement fibers including the steps of establishing a downwardly moving veil of reinforcement fibers, such as glass fibers, and centrifuging asphalt fibers from a rotating asphalt spinner positioned within the veil of reinforcement fibers to integrate the asphalt with the reinforcement fibers. A method for making an asphalt roofing shingle includes the steps of assembling together a mat of asphalt fibers with a mat of reinforcement fibers, coating the assembled mats to form an asphalt coated sheet, applying granules to the asphalt coated sheet, and cutting the asphalt coated sheet into roofing shingles. The invention also includes the asphalt roofing shingle made by this process. Further, the invention includes asphalt highway reinforcement products containing asphalt fibers, and the method of making such products.

Hollow Polymer Fibers Using Rotary Process

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US Patent:
56226713, Apr 22, 1997
Filed:
Dec 12, 1995
Appl. No.:
8/570954
Inventors:
Michael T. Pellegrin - Newark OH
James E. Loftus - Newark OH
Randall M. Haines - Frazeysburg OH
Virgil G. Morris - Newark OH
Patrick L. Ault - Newark OH
Larry J. Huey - Granville OH
Assignee:
Owens-Corning Fiberglass Technology, Inc. - Summit IL
International Classification:
D01D 518
D01D 524
US Classification:
264563
Abstract:
In a method for producing hollow polymer fibers, molten polymer is supplied to a rotating polymer spinner having a peripheral wall. The spinner rotates so that molten polymer is centrifuged through a first tube extending through the peripheral wall of the spinner to form fibers. Gas is introduced into the interior of the molten polymer to form hollow polymer fibers. The hollow polymer fibers are then collected as a product such as a mat. The hollow polymer fibers produced by the method are microfibers having an average outside diameter of from about 2. 5 microns to about 62. 5 microns.

Glass Mat Thermoplastic Product

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US Patent:
55716105, Nov 5, 1996
Filed:
Dec 15, 1995
Appl. No.:
8/573079
Inventors:
James E. Loftus - Newark OH
Michael T. Pellegrin - Newark OH
Patrick L. Ault - Newark OH
Randall M. Haines - Frazeysburg OH
Virgil G. Morris - Newark OH
Assignee:
Owens Corning Fiberglass Technology, Inc. - Summit IL
International Classification:
B32B 1500
US Classification:
428285
Abstract:
A composite sheet is made of a moldable resin and reinforcement fibers, where the resin is a thermoplastic resin, thermosetting resin or mixture thereof, and the reinforcement fibers are fibers centrifuged from a rotary process fiberizer, where the composite sheet has at least 5 distinct layers of reinforcement fibers per mm of thickness. The composite sheet has at least 10 distinct layers of reinforcement fibers, and preferably at least 30 distinct layers. At least 85 percent of the reinforcement fibers are monofilaments, and the reinforcement fibers are wool glass fibers.

Integration Of Asphalt And Reinforcement Fibers

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US Patent:
57187878, Feb 17, 1998
Filed:
Dec 22, 1994
Appl. No.:
8/362361
Inventors:
Kevin P. Gallagher - Pataskala OH
Patrick L. Ault - Heath OH
James E. Loftus - Newark OH
Michael T. Pellegrin - Newark OH
Donn R. Vermilion - Newark OH
Frederick H. Ponn - Granville OH
Assignee:
Owens-Corning Fiberglas Technology Inc. - Summit IL
International Classification:
B32B 1102
B05D 112
US Classification:
156 624
Abstract:
A method for producing asphalt fibers includes supplying molten asphalt to a rotating asphalt spinner, centrifuging asphalt fibers from the asphalt spinner, and collecting the asphalt fibers. The molten asphalt is supplied to the asphalt spinner at a temperature within the range of from about 270. degree. to about 500. degree. F. Also disclosed is a method for integrating asphalt with reinforcement fibers including the steps of establishing a downwardly moving veil of reinforcement fibers, such as glass fibers, and centrifuging asphalt fibers from a rotating asphalt spinner positioned within the veil of reinforcement fibers to integrate the asphalt with the reinforcement fibers. A method for making an asphalt roofing shingle includes the steps of assembling together a mat of asphalt fibers with a mat of reinforcement fibers, coating the assembled mats to form an asphalt coated sheet, applying granules to the asphalt coated sheet, and cutting the asphalt coated sheet into roofing shingles. The invention also includes the asphalt roofing shingle made by this process. Further, the invention includes asphalt highway reinforcement products containing asphalt fibers, and the method of making such products.

Method For Fiberizing Mineral Material With Organic Material

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US Patent:
55230326, Jun 4, 1996
Filed:
Dec 23, 1994
Appl. No.:
8/363471
Inventors:
Patrick L. Ault - Newark OH
Michael T. Pellegrin - Newark OH
James E. Loftus - Newark OH
Assignee:
Owens-Corning Fiberglas Technology, Inc. - Summit IL
International Classification:
C03B 3704
D01D 500
US Classification:
264 6000
Abstract:
A method for fiberizing mineral material with organic material includes centrifuging mineral fibers from molten mineral material with a first rotating spinner, changing the direction of the mineral fibers to form a downwardly moving veil of mineral fibers, establishing a flow of molten organic material moving toward a second rotating spinner positioned within the veil, dividing the flow of molten organic material into a plurality of streams, directing, by means of conduits, individual ones of the plurality of streams toward the peripheral wall of the second rotating spinner, the conduits shielding the molten organic material from heat from the first rotating spinner, and centrifuging organic fibers from the molten organic material.
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Patrick Lewis Ault from Douglasville, GA, age ~66 Get Report