William A Komlos
Home Inspectors in Salt Lake City, UT
License number
Utah 5048604-5602
Issued Date
Jan 24, 2008
Expiration Date
Nov 30, 2017
Category
Building Inspector
Type
Limited Inspector
Address
Address
Salt Lake City, UT
Personal information
See more information about William A Komlos at radaris.comName
Address
Phone
S Salt Lake, UT
1076 Lake St, Salt Lake City, UT 84105
Professional information
See more information about William A Komlos at trustoria.com
Owner, Arc Tech, Llc
Owner, Arc Tech, Llc
Position:
Owner at Arc Tech, LLC, AWS Senior Certified Welding Inspector at Arc Tech, LLC (Sole Proprietorship), District Director at American Welding Society
Location:
Greater Salt Lake City Area
Industry:
Construction
Work:
Arc Tech, LLC
since 1999
-
Owner
Arc Tech, LLC
since Jul 1999
-
AWS Senior Certified Welding Inspector
American Welding Society
since Jan 2006
-
District Director
Mark Steel Corporation
Jan 1991 - Jan 1994
-
Quality Assurance Manager; Welding Supervisor
United Precision Machine & Engineering
Jun 1985 - Jun 1991
-
Quality Assurance Manager
Education:
University of Utah 1999 - 2009
MS CE, Structural Engineering School of Hard Knocks
PhD, Fabrication Sciences
MS CE, Structural Engineering School of Hard Knocks
PhD, Fabrication Sciences
Skills:
I weld, Weld, Steel, MIG welding, Metal Fabrication, Materials, American Welding Society (AWS), Construction, Engineering, Manufacturing, Metallurgy, Inspection, Strategic Planning, Research, Contract Negotiation, Training, Welding, Gas, Certified Welding Inspector
Interests:
skiing, whitewater rafting, fine dining, music
Honor & Awards:
Patent awarded 2007 - "Mitigation of Residual Welding Stress with Compensating Compression",
Chi Epsilon Honors Society for Civil Engineers,
Languages:
Spanish
Awards:
AWS President's Award - 2012
President William Rice, AWS 2012
Prestigious award in recognition of significant effort to support the mission and goals of the American Welding Society. I coordinated the efforts of over one hundred volunteers at the 65th Assembly of the International Institute of Welding held in Denver Colorado.
President William Rice, AWS 2012
Prestigious award in recognition of significant effort to support the mission and goals of the American Welding Society. I coordinated the efforts of over one hundred volunteers at the 65th Assembly of the International Institute of Welding held in Denver Colorado.
Methods And Systems For Mitigating Residual Tensile Stresses
Methods And Systems For Mitigating Residual Tensile Stresses
US Patent:
2010017, Jul 8, 2010
Filed:
Mar 19, 2010
Appl. No.:
12/727806
Inventors:
William A. Komlos - Salt Lake City UT, US
Lawrence D. Reaveley - Holladay UT, US
Lawrence D. Reaveley - Holladay UT, US
International Classification:
B23K 37/00
US Classification:
228 46
Abstract:
Residual tensile stresses can be mitigated through methods and systems provided by the present invention. Such a method can include securing a metal member () to a substrate and at least partially surrounding a portion of the metal member () with a cooling fluid (). As a result, the cooled portion of the metal member () contracts a predetermined amount. Once cooled, the metal member may be fixed, preferably welded, to another metal member in a constrained relationship. As the portion of the metal member is returned to its original temperature, expansion of the metal member acts to mitigate residual tensile stresses in the metal assembly. Tensile stress in restrained members, cambering, and structural deformation can be readily controlled in an assembled structure.
Methods And Systems For Mitigating Residual Tensile Stresses
Methods And Systems For Mitigating Residual Tensile Stresses
US Patent:
2008023, Oct 2, 2008
Filed:
Jun 7, 2006
Appl. No.:
11/916971
Inventors:
William A. Komlos - Salt Lake City UT, US
Lawrence D. Reaveley - Holladay UT, US
Lawrence D. Reaveley - Holladay UT, US
International Classification:
B23K 31/02
US Classification:
228176, 228 18
Abstract:
Residual tensile stresses can be mitigated through methods and systems provided by the present invention. Such a method can include securing a metal member () to a substrate and at least partially surrounding a portion of the metal member () with a cooling fluid (). As a result, the cooled portion of the metal member () contracts a predetermined amount. Once cooled, the metal member may be fixed, preferably welded, to another metal member in a constrained relationship. As the portion of the metal member is returned to its original temperature, expansion of the metal member acts to mitigate residual tensile stresses in the metal assembly. Tensile stress in restrained members, cambering, and structural deformation can be readily controlled in an assembled structure.