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Jerrid S Holt

from Knoxville, TN
Age ~45
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Also known as:
Jerrid Holt Rebecca Holt, Jarrid S Holt
Phone and address:
5005 Alpha Terrace Ln, Knoxville, TN 37938
Related to:
Jerry Franklin Holt, 78Wayne L Holt, 54Marilyn J Holt, 68Briley J Holt, 39Tina Caldwell, 63Jamie L Davis, 41Lloyd L Mccants, 70Brandon L Holt, 45George H Davis, 64Julie B Holt, 44Rebecca S Mccants, 44
Connected to:
Aidan Holt, 27Alice M Holt, 77Amanda Holt, 45Amie J Holt, 48Amy L Holt, 51Angela W Holt, 60Antoine Holt, 38Aubrey S Holt, 50Audra M Holt, 53Barrett T Holt, 49

Jerrid Holt Phones & Addresses

  • 5005 Alpha Terrace Ln, Knoxville, TN 37938
  • Knox, TN
  • Newport, TN

Work

Company: Oak ridge national laboratory Jul 2008 Position: Research and development staff member

Education

Degree: Master School / High School: University of Tennessee-Knoxville 2009 to 2010 Specialities: Business Administration

Industries

Research

Resumes

Resumes

Jerrid Holt Photo 1

Research And Development Staff Member

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Location:
Knoxville, TN
Industry:
Research
Work:
Oak Ridge National Laboratory since Jul 2008
Research and Development Staff Member
Education:
University of Tennessee-Knoxville 2009 - 2010
Master, Business Administration University of Tennessee-Knoxville 2003 - 2006
Master of Science, Materials Science and Engineering University of Tennessee-Knoxville 1998 - 2002
Bachelor of Science, Materials Science and Engineering

Publications

Us Patents

Non-Destructive Component Separation Using Infrared Radiant Energy

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US Patent:
7896053, Mar 1, 2011
Filed:
Sep 27, 2007
Appl. No.:
11/862458
Inventors:
Ronald F. Simandl - Knoxville TN, US
Steven W. Russell - Knoxville TN, US
Jerrid S. Holt - Knoxville TN, US
John D. Brown - Harriman TN, US
Assignee:
Babcock & Wilcox Services Y-12, LLC - Oak Ridge TN
International Classification:
B32B 38/10
US Classification:
156584, 156344, 294264
Abstract:
A method for separating a first component and a second component from one another at an adhesive bond interface between the first component and second component. Typically the method involves irradiating the first component with infrared radiation from a source that radiates substantially only short wavelengths until the adhesive bond is destabilized, and then separating the first component and the second component from one another. In some embodiments an assembly of components to be debonded is placed inside an enclosure and the assembly is illuminated from an IR source that is external to the enclosure. In some embodiments an assembly of components to be debonded is simultaneously irradiated by a multi-planar array of IR sources. Often the IR radiation is unidirectional. In some embodiments the IR radiation is narrow-band short wavelength infrared radiation.

Solvent For Urethane Adhesives And Coatings And Method Of Use

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US Patent:
20080283097, Nov 20, 2008
Filed:
May 16, 2007
Appl. No.:
11/749234
Inventors:
Ronald F. Simandl - Knoxville TN, US
John D. Brown - Harriman TN, US
Jerrid S. Holt - Knoxville TN, US
International Classification:
B08B 7/04
C11D 7/32
US Classification:
134 19, 510200, 510499
Abstract:
A solvent for urethane adhesives and coatings, the solvent having a carbaldehyde and a cyclic amide as constituents. In some embodiments the solvent consists only of miscible constituents. In some embodiments the carbaldehyde is benzaldehyde and in some embodiments the cyclic amide is N-methylpyrrolidone (M-pyrole). An extender may be added to the solvent. In some embodiments the extender is miscible with the other ingredients, and in some embodiments the extender is non-aqueous. For example, the extender may include isopropanol, ethanol, tetrahydro furfuryl alcohol, benzyl alcohol, Gamma-butyrolactone or a caprolactone. In some embodiments a carbaldehyde and a cyclic amide are heated and used to separate a urethane bonded to a component.

Method And Apparatus For Protecting Metal From Oxidaton

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US Patent:
20090020187, Jan 22, 2009
Filed:
Jul 17, 2007
Appl. No.:
11/778859
Inventors:
Steven W. Russell - Knoxville TN, US
Jerrid S. Holt - Knoxville TN, US
Jonathan S. Morrell - Farragut TN, US
International Classification:
C23C 22/02
B05C 9/14
US Classification:
148281, 118 58, 148240, 148282, 148283
Abstract:
An apparatus and process for protecting metal from oxidation during metal forming operations. A salt is deposited onto at least a portion of a surface of the metal. The salt is heated in a protective environment until the salt melts on the metal to form a coated metal. The protective environment may then be removed and the coated metal may be exposed to an active environment. The coated metal may then be formed using standard metal forming processes. In alternative embodiments salts are selected for particular melting and vaporizing temperatures. An automated apparatus for coating a metal object with a salt may be provided. An applicator is configured to deposit the salt onto a surface of the metal object to form a salted metal object. A furnace is configured to receive the salted metal object and to melt at least a portion of the salt on the surface of the salted metal object. A conveyor system is configured to transport the metal object into and out of the applicator and configured to transport the salted metal object into and out of the furnace.
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Jerrid S Holt from Knoxville, TN, age ~45 Get Report