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Robert L Faiz

Deceased

from Newtown, CT

Also known as:
  • Robert L Fiaz

Robert Faiz Phones & Addresses

  • Newtown, CT
  • 9 Russett Rd, Sandy Hook, CT 06482 • 2034268357
  • Ronco, PA
  • PO Box 409, Newtown, CT 06470

Work

  • Position:
    Executive, Administrative, and Managerial Occupations

Us Patents

  • Diaphragm Chamber Molding Apparatus And Method

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  • US Patent:
    20030057582, Mar 27, 2003
  • Filed:
    Jul 19, 1996
  • Appl. No.:
    08/683928
  • Inventors:
    EDWARD BERNARDON - BEDFORD MA, US
    MARK CONDON - MELROSE MA, US
    CRAIG D. MYERS - NEWTON CENTRE MA, US
    ROBERT FAIZ - SANDY HOOK CT, US
    LAWRENCE FALLON - DANVERS MA, US
    ROBERT FLORY - CONCORD MA, US
    CHRISTOPHER MORSE - GRANBY MA, US
  • International Classification:
    B29C070/44
    B29C070/48
  • US Classification:
    264/040100, 264/510000, 264/161000, 264/313000, 264/316000, 264/291000, 264/292000, 264/258000, 425/112000, 425/389000
  • Abstract:
    A diaphragm chamber molding apparatus and method including a chamber for containing a mold surface therein; a bottom flexible diaphragm placed over and sealable with respect to the top of the chamber; a top flexible diaphragm placed over and sealable with respect to the bottom diaphragm for containing a lay-up between the top and bottom diaphragms; means for evacuating the area between the top and bottom diaphragms; and means for drawing the top and bottom diaphragms and the lay-up therebetween down over a mold surface located in the chamber to form the lay-up.
  • Tactical Surveillance Sensor Projectile System

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  • US Patent:
    20040075585, Apr 22, 2004
  • Filed:
    Oct 17, 2002
  • Appl. No.:
    10/272894
  • Inventors:
    Kenneth Kaiser - North Reading MA, US
    Robert Faiz - Sandy Hook CT, US
    Sean George - Boston MA, US
  • International Classification:
    F41G007/00
    F42B015/04
  • US Classification:
    340/946000, 244/003120, 244/003110, 244/003100
  • Abstract:
    A tactical surveillance sensor projectile system includes a propellant and primer chamber, a firing device, a sensor device, a signal processor, and a fiber optic cable; the firing device fires the primer and propellant to establish a powered phase of flight followed by a ballistic phase of flight to clear an obstacle; the sensor device generates surveillance signals representative of ambient characteristics beyond the obstacle at least during the ballistic phase of flight; the signal processor is responsive to the sensor device for converting the signals representative of ambient conditions to an optical data stream; and the fiber optic cable delivers the optical data stream to a ground station at least during the ballistic phase of flight.
  • Elastomeric Helicopter Rotor Load Reaction System

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  • US Patent:
    42355702, Nov 25, 1980
  • Filed:
    Jun 26, 1978
  • Appl. No.:
    5/919357
  • Inventors:
    Donald L. Ferris - Newtown CT
    Edward S. Hibyan - Trumbull CT
    Robert L. Faiz - Newtown CT
  • Assignee:
    United Technologies Corporation - Hartford CT
  • International Classification:
    B64C 1106
    B64C 2738
  • US Classification:
    416134A
  • Abstract:
    A helicopter rotor having one or more blades mounted for rotation with the rotor hub and each supported therefrom by an elastomeric bearing, and having a lead-lag damper connected to the blade and the hub and extending substantially parallel to the blade axis, and including the improvement of apparatus for preventing tension loading of the elastomeric bearing as the blade moves radially inwardly as a result of rotor braking.
  • Removable Irreversibly Shrinking Male Mandrel

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  • US Patent:
    46817247, Jul 21, 1987
  • Filed:
    Apr 28, 1986
  • Appl. No.:
    6/856898
  • Inventors:
    Robert L. Faiz - Sandy Hook CT
    William J. Walker - Monroe CT
    Philip Ramey - Milford CT
    Kenneth M. Adams - Sandy Hook CT
    Nicholas P. Flonc - Hamden CT
    Dean Nguyen - Stamford CT
  • Assignee:
    United Technologies Corporation - Hartford CT
  • International Classification:
    B29C 108
  • US Classification:
    264257
  • Abstract:
    A shrinkable foam mandrel that can be easily removed and composite resin transfer molding process that uses the foam mandrel. The foam is dimensionally stable at a first temperature that typically corresponds to the cure temperature of the composite resin. The foam is capable of irreversibly shrinking to less than about 0. 5 said foam's original size at a second tempertaure that is above said first tempertaure. The foam is encapsulated by a non-stick elastomer skin and covered with fibers. The fiber covered elastomer encapsulated foam is disposed in a female mold cavity and resin is injected into the female mold cavity. The resin and fibers are cured and the resulting composite component is removed from the female mold. The temperature is raised to the second temperature and the elastomer encapsulated foam male mandrel irreversibly shrink to less than about 0. 5 its original size.
  • Method For Stabilized Cutting Of Fibrous Composite Preforms

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  • US Patent:
    49084941, Mar 13, 1990
  • Filed:
    Mar 18, 1988
  • Appl. No.:
    7/170494
  • Inventors:
    Robert L. Faiz - Sandy Hook CT
    Nestor J. Diaz - Seymour CT
    William C. Reinfelder - Woodbridge CT
  • Assignee:
    United Technologies Corporation - Hartford CT
  • International Classification:
    B23K 2600
  • US Classification:
    21912172
  • Abstract:
    A method is disclosed for the stabilized cutting of a stack of fibrous composite sheets (1) assembled into a preform (3). The method includes the steps of providing a plurality of fiber sheets; applying a binder (2) to each sheet, with the binder comprising a low weight fraction of the sheet and being noninhibitive to resin flow during molding; and stacking the sheets in a particular orientation and cutting the sheets to a desired pattern using a laser cutting system (5) which may include a computer control module (8) loaded with a digitized pattern of the desired contour. As the laser cuts the fabric sheets, the cut ends fuse with the binder rather than with each other, thereby preventing cross-fusing of the fibers and maintaining resin permeability at the sheet ends. With this method, a low cost, highly automated and repeatable process may be provided for producing fiber preforms without labor intensive multiple sheet cutting and cross-stitching, while avoiding frayed or unraveled sheet edges.
  • Blade Pitch Control Mechanism For Helicopters

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  • US Patent:
    40478386, Sep 13, 1977
  • Filed:
    Mar 22, 1976
  • Appl. No.:
    5/669411
  • Inventors:
    Donald L. Ferris - Newtown CT
    Robert L. Faiz - Newtown CT
  • Assignee:
    United Technologies Corporation - Hartford CT
  • International Classification:
    B64C 2710
  • US Classification:
    416115
  • Abstract:
    Pitch control linkage for the upper rotor of coaxial counterrotating rotors utilizes conventional swashplate, control rod and servomotor elements for changing blade pitch but without the conventional rotating and non-rotating scissors for reacting swashplate torque. This is accomplished by the use of rotating and non-rotating walking beams and combination torque reacting control rods between the walking beams and the rotatable and non-rotatable swashplate elements. Means are also disclosed for shimming the rotatable walking beams to achieve pre-track adjustment of the pitch of individual blades.
  • In-Situ Molding Of Fiber Reinforced Composites To Net Shape

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  • US Patent:
    51732270, Dec 22, 1992
  • Filed:
    Dec 6, 1990
  • Appl. No.:
    7/623822
  • Inventors:
    James H. Ewen - Orange CT
    Nestor J. Diaz - Seymour CT
    Robert L. Faiz - Sandy Hook CT
    David J. Parker - Newtown CT
  • Assignee:
    United Technologies Corporation - Hartford CT
  • International Classification:
    B29C 6722
  • US Classification:
    264 466
  • Abstract:
    A method for fabricating composite structures wherein a single mold is used to preform a foam core between fiber reinforcement plies that are subsequently subjected to resin transfer molding to form an integrated foam core composite structure having the formed foam core mechanically interlocked to the composite skins. Fiber reinforcement plies are layed up on contoured molding surfaces of dies to define a core cavity with the mold closed. Foam is injected into the core cavity, concomitantly penetrating the fiber reinforcement plies, and allowed to cure to form the foam core. Heat and pressure generated during foam cure compresses the fiber reinforcement plies to provide debulking therefor. A resin binder is injected into the mold plenum to impregnate the layed-up fiber reinforcement plies, and the formed foam core/resin-impregnated layed-up fiber reinforcement plies are subsequently cured to form the integrated foam core composite structure. Film barriers may be formed in the fiber reinforcement plies to limit penetration of the injected foam to a predetermined number of fiber reinforcement plies.

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