BRIAN JAMES WHITE
Pilots at Velvet Sky Way, Spring, TX

License number
Texas A2825968
Issued Date
Oct 2016
Expiration Date
Apr 2017
Category
Airmen
Type
Authorized Aircraft Instructor
Address
Address
27521 Velvet Sky Way, Spring, TX 77386

Personal information

See more information about BRIAN JAMES WHITE at radaris.com
Name
Address
Phone
Brian White
5004 Lincoln Oaks Dr N, Fort Worth, TX 76132
(817) 907-4097
Brian White
5007 King Richards Row, Midland, TX 79707
(432) 694-6149
Brian White
4908 Bayberry Dr, Wichita Falls, TX 76310
(512) 797-5112
Brian White
505 Bastrop St APT 205, Houston, TX 77003
(281) 216-5896
Brian White
506 Bethlehem St, Terrell, TX 75160
(214) 718-6002

Professional information

Brian White Photo 1

Brian White - The Woodlands, TX

Work:
Schlumberger
Senior Manufacturing Engineer
Smith International, Inc - Houston, TX
Project Manager
Hardide Coatings, Inc
Production Manager
Smith International, Inc - Houston, TX
Lab Supervisor, Materials Testing Lab
Smith International, Inc - Houston, TX
Project Engineer, Materials Dept
Rogers Tool Works, Inc - Rogers, AR
Coating Engineer and Production Supervisor
Analytical Chemist
Education:
Missouri Southern State University
BA in Chemistry


Brian White Photo 2

Polycrystalline Diamond Carbide Composites

US Patent:
6454027, Sep 24, 2002
Filed:
Mar 9, 2000
Appl. No.:
09/521717
Inventors:
Zhigang Fang - The Woodlands TX
Anthony Griffo - The Woodlands TX
Brian A. White - The Woodlands TX
Stewart Middlemiss - Salt Lake City UT
Ron K. Eyre - Orem UT
Assignee:
Smith International, Inc. - Houston TX
International Classification:
E21B 1046
US Classification:
175374, 175426, 175428, 419 18, 51295
Abstract:
Polycrystalline diamond (PCD) carbide composites of this invention have a microstructure comprising a plurality of granules formed from PCD, polycrystalline cubic boron nitride, or mixture thereof, that are distributed within a substantially continuous second matrix region that substantially surrounds the granules and that is formed from a cermet material. In an example embodiment, the granules are polycrystalline diamond and the cermet material is cemented tungsten carbide. PCD carbide composites of this invention display improved properties of fracture toughness and chipping resistance, without substantially compromising wear resistance, when compared to conventional pure PCD materials.


Brian White Photo 3

Polycrystalline Diamond Materials Formed From Coarse-Sized Diamond Grains

US Patent:
6951578, Oct 4, 2005
Filed:
Aug 10, 2000
Appl. No.:
09/637092
Inventors:
Daniel J. Belnap - Pleasant Grove UT, US
Nathan R. Anderson - Pleasant Grove UT, US
Zhigang Fang - The Woodlands TX, US
Anthony Griffo - The Woodlands TX, US
Brian A. White - The Woodlands TX, US
Assignee:
Smith International, Inc. - Houston TX
International Classification:
B32B009/00
US Classification:
75231, 419 11, 75252, 175374
Abstract:
PCD materials of this invention comprise diamond crystals that are bonded together with a catalyst/binder material. The PCD material is prepared by combining diamond grains with a catalyst/binder material either as a premixture or by infiltration during sintering. The PCD material comprises 15 percent by volume or less diamond grains sized 20 micrometers or less. The diamond grains are pressurized under elevated temperature conditions to form the desired PCD material. PCD materials of this invention can constitute the exclusive material phase of a PCD construction, or can form one or more material phase in a multi-phase material microstructure, wherein the multiple material phase can be arranged in an ordered/oriented or random fashion. PCD materials of this invention display improved properties of impact and fatigue resistance, and functional toughness, when used in complex wear environments, when compared to conventional PCs materials comprising intentionally added fine-sized diamond grains.


Brian White Photo 4

Bonding Of Cutters In Drill Bits

US Patent:
7625521, Dec 1, 2009
Filed:
Jun 5, 2003
Appl. No.:
10/455217
Inventors:
Saul N. Izaguirre - Spring TX, US
Thomas W. Oldham - The Woodlands TX, US
Kumar T. Kembaiyan - The Woodlands TX, US
Gary R. Chunn - Conroe TX, US
Anthony Griffo - The Woodlands TX, US
Robert Denton - Pearland TX, US
Brian White - The Woodlands TX, US
Assignee:
Smith International, Inc. - Houston TX
International Classification:
C22C 32/00, B21K 5/02, B21K 5/10
US Classification:
419 10, 419 14, 761011, 761081, 761082, 761084, 761086
Abstract:
A bit body formed of a mixture of matrix material and superabrasive powder and including pockets lined with superabrasive-free matrix material, and a method for forming the same, are provided. The pockets are shaped to receive cutting elements therein. The superabrasive-free matrix material enhances braze strength when a cutting element is brazed to surfaces of the pocket. The method for forming the drill bit body includes providing a mold and displacements. The displacements are coated with a mixture of superabrasive free matrix-material and an organic binder. The mold is packed with a mixture of matrix material and superabrasive powder and the arrangement heated to form a solid drill bit body. When the solid bit body is removed from the mold, pockets are formed by the displacements in the bit body and are lined with the layer of superabrasive-free matrix material. The superabrasive material may be diamond, polycrystalline cubic boron nitride, SiC or TiBin exemplary embodiments.


Brian White Photo 5

Polycrystalline Diamond Materials Formed From Coarse-Sized Diamond Grains

US Patent:
2006008, Apr 20, 2006
Filed:
Sep 27, 2005
Appl. No.:
11/237625
Inventors:
Daniel Belnap - Pleasant Grove UT, US
Nathan Anderson - Pleasant Grove UT, US
Zhigang Fang - The Woodlands TX, US
Anthony Griffo - The Woodlands TX, US
Brian White - The Woodlands TX, US
International Classification:
B21K 5/04, C09K 3/14
US Classification:
051307000, 076108200
Abstract:
PCD materials of this invention comprise diamond crystals that are bonded together with a catalyst/binder material. The PCD material is prepared by combining diamond grains with a catalyst/binder material either as a premixture or by infiltration during sintering. The PCD material comprises 15 percent by volume or less diamond grains sized 20 micrometers or less. The diamond grains are pressurized under elevated temperature conditions to form the desired PCD material. PCD materials of this invention can constitute the exclusive material phase of a PCD construction, or can form one or more material phase in a multi-phase material microstructure, wherein the multiple material phase can be arranged in an ordered/oriented or random fashion. PCD materials of this invention display improved properties of impact and fatigue resistance, and functional toughness, when used in complex wear environments, when compared to conventional PCs materials comprising intentionally added fine-sized diamond grains.


Brian White Photo 6

Bonding Of Cutters In Diamond Drill Bits

US Patent:
7997358, Aug 16, 2011
Filed:
Oct 20, 2009
Appl. No.:
12/582212
Inventors:
Saul N Izaguirre - Spring TX, US
Thomas W. Oldham - Georgetown TX, US
Kumar T Kembaiyan - The Woodlands TX, US
Gary Chunn - Conroe TX, US
Anthony Griffo - The Woodlands TX, US
Robert Denton - Pearland TX, US
Brian A White - The Woodlands TX, US
Assignee:
Smith International, Inc. - Houston TX
International Classification:
E21B 10/46
US Classification:
175374, 175435
Abstract:
A bit body formed of a mixture of matrix material and superabrasive powder and including pockets lined with superabrasive-free matrix material, and a method for forming the same, are provided. The pockets are shaped to receive cutting elements therein. The superabrasive-free matrix material enhances braze strength when a cutting element is brazed to surfaces of the pocket. The method for forming the drill bit body includes providing a mold and displacements. The displacements are coated with a mixture of superabrasive free matrix-material and an organic binder. The mold is packed with a mixture of matrix material and superabrasive powder and the arrangement heated to form a solid drill bit body. When the solid bit body is removed from the mold, pockets are formed by the displacements in the bit body and are lined with the layer of superabrasive-free matrix material. The superabrasive material may be diamond, polycrystalline cubic boron nitride, SiC or TiBin exemplary embodiments.


Brian White Photo 7

Polycrystalline Diamond Carbide Composites

US Patent:
7211218, May 1, 2007
Filed:
Sep 5, 2002
Appl. No.:
10/235261
Inventors:
Zhigang Fang - The Woodlands TX, US
Anthony Griffo - The Woodlands TX, US
Brian A. White - The Woodlands TX, US
Stewart Middlemiss - Salt Lake City UT, US
Ron K. Eyre - Orem UT, US
Assignee:
Smith International, Inc. - Houston TX
International Classification:
B22F 3/12
US Classification:
419 10, 419 13, 419 17, 419 18, 419 35, 419 36
Abstract:
Polycrystalline diamond (PCD) carbide composites of this invention have a microstructure comprising a plurality of granules formed from PCD, polycrystalline cubic boron nitride, or mixture thereof, that are distributed within a substantially continuous second matrix region that substantially surrounds the granules and that is formed from a cermet material. In an example embodiment, the granules are polycrystalline diamond and the cermet material is cemented tungsten carbide. PCD carbide composites of this invention display improved properties of fracture toughness and chipping resistance, without substantially compromising wear resistance, when compared to conventional pure PCD materials.


Brian White Photo 8

Polycrystalline Diamond Carbide Composites

US Patent:
7647992, Jan 19, 2010
Filed:
May 1, 2007
Appl. No.:
11/743108
Inventors:
Zhigang Fang - The Woodlands TX, US
Anthony Griffo - The Woodlands TX, US
Brian A. White - The Woodlands TX, US
Stewart Middlemiss - Salt Lake City UT, US
Ron K. Eyre - Orem UT, US
Assignee:
Smith International, Inc. - Houston TX
International Classification:
E21B 10/46, B22F 7/06
US Classification:
175374, 175426, 175434, 419 5, 419 18
Abstract:
Polycrystalline diamond (PCD) carbide composites of this invention have a microstructure comprising a plurality of granules formed from PCD, polycrystalline cubic boron nitride, or mixture thereof, that are distributed within a substantially continuous second matrix region that substantially surrounds the granules and that is formed from a cermet material. In an example embodiment, the granules are polycrystalline diamond and the cermet material is cemented tungsten carbide. PCD carbide composites of this invention display improved properties of fracture toughness and chipping resistance, without substantially compromising wear resistance, when compared to conventional pure PCD materials.