Iso • Continuous Improvement • Product Development • Quality System • Process Engineering • Six Sigma • Process Improvement • 5S • Quality Control • Root Cause Analysis • R&D • Iso 9000 • Spc • Engineering • Failure Mode and Effects Analysis • Research and Development • Design of Experiments • Minitab • Fmea
Precision Fabrics Group
Product Development Engineer
Alcan Composites Aug 2004 - Jul 2006
Quality Systems Coordinator
Alcan Composites Jul 2001 - Jul 2004
Technical Manager
International Paper Mar 2000 - Jun 2001
Quality Coordinator
Kimberly-Clark Apr 1999 - Nov 1999
Engineer Ii
Education:
Michigan State University 1991 - 1993
Bachelors, Bachelor of Science, Chemical Engineering
Skills:
Iso Continuous Improvement Product Development Quality System Process Engineering Six Sigma Process Improvement 5S Quality Control Root Cause Analysis R&D Iso 9000 Spc Engineering Failure Mode and Effects Analysis Research and Development Design of Experiments Minitab Fmea
Richard James Bliton - Greensboro NC, US Samuel Mark Gillette - Burlington NC, US Troy Raymond Buechler - Salisbury NC, US
Assignee:
Precision Fabrics Group, Inc. - Greensboro NC
International Classification:
E04B 1/82 E04B 2/02 E04B 1/84 E04B 1/74 E04B 2/00
US Classification:
181290, 181294, 181286
Abstract:
The present invention provides a tunable sound absorption facing which includes a cellulosic web and a nonwoven web entangled together. The facing has a controllable air flow resistance.
Acoustically Tunable Sound Absorption Articles And Methods Of Making Same
A moldable acoustic facing comprises cellulosic fibers and synthetic fibers entangled together. The acoustic facing has a basis weight of from about 1. 5 to about 5. 0 ounces per square yard (osy), a thickness of less than about 0. 050″, a mean pore size of between about 8 microns and about 40 microns, and an elongation at break of at least twenty percent. The acoustic facing includes less than about five percent synthetic microfiber and has an acoustic resistance of at least about 250 Rayls.
Troy Buechler - Salisbury NC, US Paul Huzyak - Statesville NC, US Daniel Nelson - Old Orchard Beach ME, US
International Classification:
B32B003/26 G03C001/492
US Classification:
428304400, 428318400
Abstract:
A laminated panel for use as a display panel has a polystyrene plastic core and a cellulosic surface on each face of the core. The surface layers are impregnated with a resin formulation containing an optical brightener, and optionally a dye, and then pressed onto each face of the core to form the laminate. The finished panel is found to have outstanding brightness, and can be imprinted using a flat bed digital printed to produce signage for a variety of consumer applications.
Richard James Bliton - Greensboro NC, US Troy Raymond Buechler - Salisbury NC, US Samuel Mark Gillette - Burlington NC, US Philip Edward Harris - High Point NC, US
International Classification:
B32B 7/02 D04H 13/00
US Classification:
428219, 442414, 442334
Abstract:
An absorbent, non-skid drop cloth includes a lofted, non-woven fabric layer, and a non-skid barrier layer bonded to the non-woven fabric layer, wherein the barrier layer reduces slipping of the drop cloth on floors and other surfaces. The non-woven fabric layer has an absorbent capacity of greater than five hundred percent (500%) and a basis weight of less than five ounces per square yard (5 osy). The barrier layer includes polymeric film.
Acoustically Tunable Sound Absorption Articles And Methods Of Making Same
A moldable acoustic facing comprises cellulosic fibers and synthetic fibers entangled together. The acoustic facing has a basis weight of from about 1.5 to about 5.0 ounces per square yard (osy), a thickness of less than about 0.050″, a mean pore size of between about 8 microns and about 40 microns, and an elongation at break of at least twenty percent. The acoustic facing includes less than about five percent synthetic microfiber and has an acoustic resistance of at least about 250 Rayls.