Bausch Health Company
Principal Engineer and Program Manager
Ultralife Corporation Jan 2006 - Oct 2009
Manager,Document Control and Engineering Design
Ultralife Corporation Apr 2003 - Dec 2005
Senior Quality Engineer
Ultralife Corporation May 2000 - Mar 2003
Quality Test Lab Manager and Senior Process Engineer
Bausch + Lomb Oct 1995 - Apr 2000
Senior Process Engineer, Manufacturing Process Development
Education:
Rochester Institute of Technology 1998 - 2001
Master of Science, Masters, Statistics
Rochester Institute of Technology 1986 - 1988
Bachelors, Bachelor of Science, Electrical Engineering
Monroe Community College 1984
Skills:
Process Engineering Automation Design of Experiments Electronics Engineering Fmea Iso Lean Manufacturing Manufacturing Manufacturing Engineering Product Development Program Management Project Management Quality Assurance Quality Control Quality Management Spc Software Documentation Solidworks Testing Troubleshooting Engineering Management
Interests:
Muscle Cars New Technology For A Cleaner Environment Hunting Antiques Youth Soccer Carpentry Fishing Archery
Griffith Altmann - Webster NY, US Lisa Armstrong - Webster NY, US Kevin Beebe - Spencerport NY, US Ian Cox - Mendon NY, US Horngyih Huang - Penfield NY, US Michael Lesczynski - Honeoye Falls NY, US Arthur Martin - Poughkeepsie NY, US Michelle Moran - Fairport NY, US Joseph Papalia - Webster NY, US Dominic Ruscio - Webster NY, US
International Classification:
B29D011/00
US Classification:
264/001360, 264/001380, 249/117000
Abstract:
A method and mold assembly to control the polymerization of a molded article. In one embodiment, an amorphous posterior mold comprising a non-critical surface having a controlled radius of curvature is used to produce molded articles. In an alternate embodiment, ophthalmic lenses are produced using a posterior mold in which the concave surface of the non-critical surface is filled with a liquid having a similar refractive index as the mold material. In still another embodiment, a positive lens is placed at a predetermined distance adjacent to the mold assembly to alter the irradiation path to the mold assembly. In still another embodiment, a positive lens is placed within the concave surface of the posterior lens.
Griffith Altmann - Webster NY, US Lisa Armstrong - Webster NY, US Kevin Beebe - Spencerport NY, US Ian Cox - Mendon NY, US Horngyih Huang - Penfield NY, US Michael Lesczynski - Honeoye Falls NY, US Arthur Martin - Poughkeepsie NY, US Michelle Moran - Fairport NY, US Joseph Papalia - Webster NY, US Dominic Ruscio - Webster NY, US
International Classification:
B29D011/00
US Classification:
264001360, 264001380, 425808000
Abstract:
A method and mold assembly to control the polymerization of a molded article. In one embodiment, an amorphous posterior mold comprising a non-critical surface having a controlled radius of curvature is used to produce molded articles. In an alternate embodiment, ophthalmic lenses are produced using a posterior mold in which the concave surface of the non-critical surface is filled with a liquid having a similar refractive index as the mold material. In still another embodiment, a positive lens is placed at a predetermined distance adjacent to the mold assembly to alter the irradiation path to the mold assembly. In still another embodiment, a positive lens is placed within the concave surface of the posterior lens.