DR. JOHN YATES WILLIAMS, D.D.S.
Dentist at Greenfield St, Wilmington, NC

License number
North Carolina 10477
Category
Dentist
Type
Dentist
Address
Address
1611 Greenfield St, Wilmington, NC 28401
Phone
(910) 342-9210
(910) 342-9211 (Fax)

Professional information

John Williams Photo 1

General Manager/Match Maker/Promotor At Xtreme Fight Promotions

Position:
General Manager/Match maker/Promotor at Xtreme Fight Promotions
Location:
Wilmington, North Carolina Area
Industry:
Entertainment
Work:
Xtreme Fight Promotions - General Manager/Match maker/Promotor


John Williams Photo 2

John Yates Williams

Position:
Teacher at New Hanover County Schools
Location:
Wilmington, North Carolina Area
Industry:
Education Management
Work:
New Hanover County Schools - Teacher
Education:
University of Houston 1977 - 1980
Bachelor of Science, Civil Engineering


John Williams Photo 3

Owner, Urban Defense Tactics

Position:
Owner at urban defense tactics
Location:
Wilmington, North Carolina Area
Industry:
Health, Wellness and Fitness
Work:
urban defense tactics - Owner


John Williams Photo 4

Sales At Empire

Position:
Sales at Empire
Location:
Wilmington, North Carolina Area
Industry:
Computer Software
Work:
Empire - Sales


John Williams Photo 5

Information Technology And Services Professional

Location:
Wilmington, North Carolina Area
Industry:
Information Technology and Services


John Williams Photo 6

Farm Manager At Oakland Plantation Turf Farm

Position:
Farm Manager at Oakland Plantation Turf Farm
Location:
Wilmington, North Carolina Area
Industry:
Farming
Work:
Oakland Plantation Turf Farm - Farm Manager


John Williams Photo 7

Apparatus For Forming A Porous Glass Preform

US Patent:
5116400, May 26, 1992
Filed:
Sep 20, 1990
Appl. No.:
7/585192
Inventors:
John S. Abbott - Elmira NY
Mark C. Bertz - Greenville SC
James H. Faler - Wilmington NC
William Schirmer - Wilmington NC
John G. Williams - Wilmington NC
Assignee:
Corning Incorporated - Corning NY
International Classification:
C03B 1906
US Classification:
65144
Abstract:
Apparatus for rapidly forming a porous glass preform is provided in which an array of burners is oscillated along a path parallel to the longitudinal axis of the preform. The oscillation amplitude is limited so that each burner deposits soot on only a portion of the preform, e. g. , 20% of the preform. By controlling inter-burner variability and the air flow in the burner-array/preform region, preforms having substantially uniform diameter and axial properties are obtained.


John Williams Photo 8

Method For Forming A Porous Glass Preform

US Patent:
5211732, May 18, 1993
Filed:
May 21, 1992
Appl. No.:
7/886970
Inventors:
John S. Abbott - Elmira NY
Mark C. Bertz - Greenville SC
James H. Faler - Wilmington NC
William Schirmer - Wilmington NC
John G. Williams - Wilmington NC
Assignee:
Corning Incorporated - Corning NY
International Classification:
C03B 1906, C03B 37018
US Classification:
65 312
Abstract:
A method and apparatus for rapidly forming a porous glass preform is provided in which an array of burners is oscillated along a path parallel to the longitudinal axis of the preform. Unlike existing soot deposition techniques, the oscillation amplitude is limited so that each burner deposits soot on only a portion of the preform, e. g. , 20% of the preform. By controlling inter-burner variability and the air flow in the burner-array/preform region, preforms having substantially uniform axial properties are obtained notwithstanding the fact that different burners are used to laydown different parts of the preform.


John Williams Photo 9

Apparatus For Applying Tension To A Fiber Preform During Soot Deposition

US Patent:
5658365, Aug 19, 1997
Filed:
Dec 14, 1994
Appl. No.:
8/355507
Inventors:
Paul A. Chludzinski - Wilmington NC
David A. Tucker - Wilmington NC
Johnnie E. Watson - Hampstead NC
John G. Williams - Wilmington NC
Assignee:
Corning Incorporated - Corning NY
International Classification:
C03B 37027
US Classification:
65484
Abstract:
An apparatus is provided for applying a tensile force along the longitudinal axis of a cane assembly during the deposition of soot thereon to produce an optical fiber preform. Fiber drawn from such a preform exhibits improved core/clad concentricity. The tensile force may be applied at one or both ends of the cane assembly, with application at both ends being preferred. The tensile force may be varied during the deposition of soot. The cane assembly may be annealed prior to beginning the deposition of soot thereon.