MR. THOMAS WILLIAMS, AAC
Addiction Counselor at 29 St, Auburn, WA
License number
Washington CG60151537
Category
Mental Health
Type
Mental Health
License number
Washington CG60151537
Category
Social Work
Type
Counselor
Address
Address
2
505 29Th St SE, Auburn, WA 98002
1600 E Olive St, Seattle, WA 98122
1600 E Olive St, Seattle, WA 98122
Phone
(253) 876-7650
(253) 876-7651 (Fax)
(206) 302-2200
(206) 302-2210 (Fax)
(253) 876-7651 (Fax)
(206) 302-2200
(206) 302-2210 (Fax)
Professional information
Student @ Bates Technical Collage
Location:
Greater Seattle Area
Industry:
Media Production
Work:
Installations by Thomas Williams
1976 - 2011
-
Owner and Floor covering master, carpet ,wood, tile, and all other types of floorcoverings
Education:
Bates Technical College 2011 - 2014
Ba of Fine Arts, Digital Media Production Bates Technical College 2011 - 2013
Ba of Fine Arts, Digital Media Production Bates Technical College 2011 - 2013
Internet Professional
Location:
Greater Seattle Area
Industry:
Internet
Education:
UNCC 1989 - 1993
Thomas Williams
Location:
Greater Seattle Area
Industry:
Legal Services
Skills:
Microsoft Office, Outlook, HTML, Visio, Photoshop, Visual Basic, Java, C, LiveNote, Pro Tools, Language Development, Solidworks, Legal Writing, Speech, Legal Research, Intellectual Property, Research, Microsoft Excel, Mac OS X, Editing
Languages:
Chinese
Laser Ultrasonic Multi-Component Imaging
US Patent:
7876453, Jan 25, 2011
Filed:
Jan 22, 2008
Appl. No.:
12/017726
Inventors:
Thomas K. Williams - Federal Way WA, US
Kenneth Telschow - Des Moines WA, US
Kenneth Telschow - Des Moines WA, US
Assignee:
The Boeing Company - Chicago IL
Battelle Energy Alliance, LLC - Idaho Falls ID
Battelle Energy Alliance, LLC - Idaho Falls ID
International Classification:
G01B 9/02
US Classification:
356502
Abstract:
Techniques for ultrasonic determination of the interfacial relationship of multi-component systems are discussed. In implementations, a laser energy source may be used to excite a multi-component system including a first component and a second component at least in partial contact with the first component. Vibrations resulting from the excitation may be detected for correlation with a resonance pattern indicating if discontinuity exists at the interface of the first and second components.