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Bryan Clark Whitmore

from Liverpool, NY
Age ~68
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Also known as:
Bryan C Whitmore, Bryan Whitmore Clark, Brian C Whitmore
Phone and address:
4354 Javelin Trl, Liverpool, NY 13090
(315) 622-0716
Related to:
Wayne R Wilson, 57
Connected to:
Adam P Whitmore, 45Alison Whitmore, 29Allie Whitmore, 114Andrew J Whitmore, 42Anthony Whitmore, 37Aven D Whitmore, 41Bradlyn T Whitmore, 56Brandy J Whitmore, 43Cara Whitmore, 49Chantel I Whitmore, 34

Bryan Whitmore Phones & Addresses

  • 4354 Javelin Trl, Liverpool, NY 13090 (315) 622-0716
  • Bayberry, NY
  • New Haven, CT
  • Bolton Landing, NY
  • 7213 Kingdom Rd, Memphis, NY 13112 (315) 689-6532
  • Gilmanton, NH
  • Rochester, NY

Specialities

Property Management

Resumes

Resumes

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Bryan Whitmore

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Location:
Liverpool, NY
Industry:
Defense & Space
Work:
Lockheed Martin Aug 1989 - Dec 2015
Senior Software Design Engineer
Education:
University of Rochester 1978 - 1983
Doctorates, Doctor of Philosophy, Philosophy, Chemistry State University of New York College at Potsdam 1974 - 1978
Bachelors, Bachelor of Arts, Chemistry
Skills:
C++
Software Engineering
Software Design
Object Oriented Design
Linux
Eclipse
Integration
Requirements Analysis
Software Development
Programming
Uml
Clearcase
Oop
Systems Engineering
System Architecture
Embedded Systems
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Bryan Whitmore

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Bryan Whitmore

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Bryan Whitmore

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Publications

Us Patents

Method And Apparatus For Adaptive Services Networking

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US Patent:
7877511, Jan 25, 2011
Filed:
Jan 13, 2004
Appl. No.:
10/756189
Inventors:
Michael A. Berger - Manchester NH, US
Robert T. Curley - Hopkinton MA, US
Daniel J. Dietterich - Acton MA, US
JC Ferguson - Harvard MA, US
Michael J. Homberg - Westborough MA, US
Benjamin E. McCann - Acton MA, US
Jonathan C. Nicklin - Cambridge MA, US
David Porter - Littleton MA, US
Suchi Raman - Winchester MA, US
Craig S. Rasmussen - Arlington MA, US
Michael J. Soha - Chelmsford MA, US
Thomas J. Teixeira - Harvard MA, US
Bryan T. Whitmore - Fitchburg MA, US
Leonard F. Wisniewski - Danvers MA, US
Chin-Cheng Wu - Carlisle MA, US
Assignee:
F5 Networks, Inc. - Seattle WA
International Classification:
G06F 15/16
US Classification:
709242, 709201, 709203, 709212, 709213, 709246
Abstract:
Methods and apparatus provide an adaptive load balancer that presents a virtual data system to client computer systems. The virtual data system provides access to an aggregated set of data, such as files or web service objects, available from a plurality of server data systems respectively operating within a plurality of server computer systems. The adaptive load balancer receives a client data access transaction from a client computer system that specifies a data access operation to be performed relative to the virtual data system presented to the client computer system. The adaptive load balancer processes the client data access transaction in relation to metadata associated with the virtual data system to provide access to the file or service object within a server computer system, or to access the metadata. The adaptive load balancer can work in conjunction with other adaptive load balancers to dynamically adjust to demands for access to data by replicating and migrating data such as files or service objects as needed between the server computer systems to accommodate data access demands.

Mechanical Galvanizing Coating Resistant To Chipping, Flaking And Cracking

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US Patent:
47756012, Oct 4, 1988
Filed:
Jul 9, 1987
Appl. No.:
7/071372
Inventors:
Harold Leever - Bethlehem CT
John J. Grunwald - Ramat Gan, IL
Bryan Whitmore - New Haven CT
Assignee:
MacDermid, Incorporated - Waterbury CT
International Classification:
B32B 1504
US Classification:
428635
Abstract:
Chipping, flaking, and cracking of mechanical galvanizing coatings applied on metal substrates is prevented by interposing between successive layers of plating metal, which are used in galvanizing the metal substrate, a layer of cushioning metal. Each interposed layer of cushioning metal imparts malleability to the coating such that chipping, cracking, and flaking is prevented or substantially reduced. The plating metal is preferably zinc, while the cushioning metal is preferably tin, lead, or mixtures thereof.

Mechanical Plating With Oxidation-Prone Metals

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US Patent:
49505041, Aug 21, 1990
Filed:
Jan 24, 1989
Appl. No.:
7/302108
Inventors:
John J. Grunwald - Ramat Gan, IL
Igal Klein - Karmiel, IL
Bryan Whitmore - New Haven CT
Assignee:
MacDermid, Incorporated - Waterbury CT
International Classification:
B05D 312
B05D 714
US Classification:
427242
Abstract:
In a mechanical plating process, oxidation-prone metals, such as aluminum, titanium, magnesium, and mixtures thereof, can be applied to metal substrates without the corrosion problems encountered in the prior art. To avoid such problems, the substrate is plated with the oxidation-prone metal and relatively minor amounts of an immersion metal and, optionally, a protective metal. The immersion metal which can be salts or oxides of metals selected from the group consisting of tin, copper, nickel, cadmium, zinc, lead, and mixtures thereof coats the oxidation-prone metal in forming a mechanical plating coating and prevents formation of an oxide layer on the oxidation-prone metal. The protective metal which may be selected from the group consisting of zinc, cadmium, and mixtures thereof prevents oxidation of the plated metal substrate when exposed to the environment. An etching agent is used either prior to and/or during mechanical plating.

Mechanical Plating With Oxidation-Prone Metals

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US Patent:
48001325, Jan 24, 1989
Filed:
Sep 23, 1987
Appl. No.:
7/100030
Inventors:
John J. Grunwald - Ramat Gan, IL
Igal Klein - Karmiel, IL
Bryan Whitmore - New Haven CT
Assignee:
MacDermid, Incorporated - Waterbury CT
International Classification:
B22F 302
B32B 1516
C23C 2000
US Classification:
428560
Abstract:
In a mechanical plating process, oxidation-prone metals, such as aluminum, titanium, magnesium, and mixtures thereof, can be applied to metal substrates without the corrosion problems encountered in the prior art. To avoid such problems, the substrate is plated with the oxidation-prone metal and relatively minor amounts of an immersion metal and, optionally, a protective metal. The immersion metal which can be salts or oxides of metals selected from the group consisting of tin, copper, nickel, cadmium, zinc, lead, and mixtures thereof coats the oxidation-prone metal in forming a mechanical plating coating and prevents formation of an oxide layer on the oxidation-prone metal. The protective metal which may be selected from the group consisting of zinc, cadmium, and mixtures thereof prevents oxidation of the plated metal substrate when exposed to the environment. An etching agent is used either prior to and/or during mechanical plating.

Mechanical Galvanizing Coating Resistant To Chipping, Flaking And, Cracking

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US Patent:
47241683, Feb 9, 1988
Filed:
Jul 17, 1986
Appl. No.:
6/887029
Inventors:
Harold Leever - Bethlehem CT
John J. Grunwald - Ramat Gan, IL
Bryan Whitmore - New Haven CT
Assignee:
MacDermid, Incorporated - Waterbury CT
International Classification:
B05D 312
US Classification:
427242
Abstract:
Chipping, flaking, and cracking of mechanical galvanizing coatings applied on metal substrates is prevented by interposing between successive layers of plating metal, which are used in galvanizing the metal substrate, a layer of cushioning metal. Each interposed layer of cushioning metal imparts malleability to the coating such that chipping, cracking, and flaking is prevented or substantially reduced. The plating metal is preferably zinc, while the cushioning metal is preferably tin, lead, or mixtures thereof.

Inhibited Composition And Method For Stripping Tin, Lead Or Tin-Lead Alloy From Copper Surfaces

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US Patent:
49215710, May 1, 1990
Filed:
Jul 28, 1989
Appl. No.:
7/386887
Inventors:
Peter E. Kukanskis - Woodbury CT
Bryan Whitmore - New Haven CT
Assignee:
MacDermid, Incorporated - Waterbury CT
International Classification:
B44C 122
C23F 100
C03C 1500
C03C 2506
US Classification:
156656
Abstract:
A composition for stripping tin, lead or solder, as well as any underlying copper-tin alloy, from copper surfaces, containing an alkane sulfonic acid, preferably methane sulfonic acid, an inorganic nitrate, preferably ferric nitrate, and an inhibitor component. The composition effects rapid stripping without any appreciable formation of sludge or precipitate or suspended particles, and without any substantial attack on the underlying copper surface.

Mechanically Plated Coatings Containing Lubricant Particles

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US Patent:
48680664, Sep 19, 1989
Filed:
Oct 19, 1987
Appl. No.:
7/109955
Inventors:
Bryan Whitmore - New Haven CT
Assignee:
MacDermid, Incorporated - Waterbury CT
International Classification:
B22F 700
B05D 312
US Classification:
428551
Abstract:
In a mechanical plating process, lubricant particles can be coated on a metal substrate together with the particulate plating metal to enhance the mechanically-applied coating's lubricity. The lubricant can be particles of fluorocarbon polymers, fluorocarbon-hydrocarbon blended polymers, powdered, elemental carbon, powdered fluorinated carbon, or mixtures thereof. The lubricant particles have a diameter less than the thickness of the coating (which is usually from 2. 5 to 132. 5 mils), so they will not be dislodged from the coating. The particles must not be too small or they may be washed away by plating liquids or may be applied too far from the coating surface to enhance lubricity. These dimensional relationships insure that the lubricant particles are entrapped within the coating.
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Bryan Clark Whitmore from Liverpool, NY, age ~68 Get Report