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Bernard A Dibenedetto

from Westborough, MA
Age ~88

Bernard Dibenedetto Phones & Addresses

  • Westborough, MA
  • 7 Blueberry Ln, Hopkinton, MA 01748 (508) 435-6924
  • 105 Candlewood Ln, Clinton, MA 01510 (978) 733-4490
  • 501 Lexington St, Waltham, MA 02452 (781) 647-1996
  • 501 Lexington St APT 24, Waltham, MA 02452 (781) 647-1996
  • 455 Acapesket Rd, East Falmouth, MA 02536 (508) 540-7425
  • Wayland, MA
  • 455 Acapesket Rd, East Falmouth, MA 02536

Work

Position: Private Household Service Occupations

Education

Degree: Bachelor's degree or higher

Business Records

Name / Title
Company / Classification
Phones & Addresses
Bernard A. Dibenedetto
Principal
Custom Woodworking
Mfg Millwork · Custom Cabinets · Woodworking
7 Blueberry Ln, Hopkinton, MA 01748
(617) 306-6479

Publications

Us Patents

Impact Resistant And Tempered Optical Elements

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US Patent:
49956841, Feb 26, 1991
Filed:
Apr 20, 1989
Appl. No.:
7/342605
Inventors:
Randal W. Tustison - Lexington MA
Dennis Montanari - West Townsend MA
Thomas Varitimos - Norwood MA
Bernard diBenedetto - Wayland MA
Assignee:
Raytheon Company - Lexington MA
International Classification:
G02B 110
G02B 528
G32B 1800
G32B 3300
US Classification:
350 16
Abstract:
An impact resistant anti-reflection coating for an optical element mounted on an airborne system which mitigates damage to the optical element when the airborne system is flown through a high velocity droplet impact medium is described. In a first embodiment, the coating comprises a material having a relatively high modulus of elasticity deposited to a thickness equal to an odd multiple of a quarter of a wavelength of the wavelength radiation to be transmitted through the optical element. In accordance with a further aspect of the invention, the high modulus of elasticity layer may comprise a homogeneous mixture of a pair of high modulus elasticity materials as well as a composite layer comprising a first layer of a high modulus elasticity material and a second layer of a second modulus of elasticity material. In a second embodiment, the outer surface of an infrared material is strengthened by single diamond point turning the outer surface of the material to introduce into the surface a compressive layer. The compressive layer is characterized as having a plurality of furrows or grooves being spaced by compressed regions of material and having disposed under said furrows or grooves a compressed region of material.
Bernard A Dibenedetto from Westborough, MA, age ~88 Get Report