Abstract: A structural member having integral surface de-icing capability and method of manufacture are described. The structural member includes a non-metallic high tensile modulus fiber-reinforced matrix structural backing, thin force and displacement generation means, and a thin high tensile modulus outer skin bonded to said backing and said force and displacement generation means which is positioned between the backing and the skin. The force and displacement generation means may include one or more inflatable tubular members preferably formed into a tube mat having bonded overlapped portions so as to distribute displacement forces. This reduces concentrated stress and fatigue while increasing surface shear forces across the ice accreting surface with each tube actuation. The structural member may be substituted for the aluminum alloy leading edge structural skin typically employed on modern aircraft.

Abstract: A composite torque transmitting power shaft is provided with built-in discrete sensible ferromagnetic elements. The composite shaft is formed of a non-ferromagnetic material so that the sensible elements, disposed interiorly of the shaft, can be sensed by a sensor element positioned outside of the shaft. Two groups of sensible elements are movable with respect to each other as the shaft twists under the application of torque. The elements can be sensed to provide an indication of the speed, torque or horsepower transmitted by the shaft. Further, the frequency and amplitude of torsional oscillations caused by pulsating power source or load characteristics can also be measured.

Abstract: A debris monitor apparatus and method and optical sensor apparatus and method that use the Faraday Effect to detect accumulation of debris on a magnetic probe. The probe contains a magnet and the optical sensor and is immersible in the fluid. As debris accumulates on the probe, the magnetic field changes. The optical sensor includes a magneto-optic material located within a portion of the changeable magnetic field, preferably near a node of the magnet. Means are provided to bi-directionally address the sensor magneto-optic material with linearly polarized light. Means are also provided to convert rotation of the light polarization angle into a modulation of the light's intensity. An electro-optic transducer converts the light intensity into electrical signals that indicate the quantity of debris accumulation on the probe, with a differentiated value of these signals with respect to time yielding rate of debris accumulation on the probe.

Abstract: A polarizerless optic sensor is provided that uses a random domain magneto-optic film and a modulated normal magnetic field to vary or modulate the energy distribution in a diffraction pattern. Light is transmitted through the film and is diffracted according to a domain duty cycle so that the center beam intensity is a function of the Faraday rotation angle of the material and the intensity of the applied normal magnetic field. The polarizerless sensor can be used to realize a speed and torque sensor, an optical switch, a magnetic field sensor and many other types of devices. The invention can be used with polarized and unpolarized input light. The sensor can be implemented using a random domain film or a stripe domain film to create a phase grating diffraction pattern.

Abstract: An apparatus and method for measuring the torque of a rotating shaft is provided, utilizing a single sensor which provides a signal which is processed to yield a temperature compensated value of the torque applied to a rotating shaft. A magneto-optic material such as a Faraday film is positioned adjacent to the rotating shaft and is subjected to a saturating magnetic field. Ferrous elements are provided about the periphery of the rotating shaft and cause the modulation of the magnetic field applied to the magneto-optic material. The rotation of the linear polarization vector of light passing through the magneto-optic material when the material is magnetized to the saturation level changes in accordance with temperature. Thus, the amplitude of the output optical signal varies in accordance with the temperature of the shaft.

Abstract: A liquid presence detector and method of using the same for a gas fluid pipe includes a helically wound insulated wire positioned inside the pipe such that an outer periphery of the wire contacts an inner surface of the pipe along an axial portion thereof. The pipe and wire form two plates of a capacitor with the pipe being connected to electrical ground for electromagnetic shielding and shock protection. The wire plate of the capacitor contacts liquid particles that travel along the pipe wall. A circuit is provided to measure capacitance between the wire and the pipe to detect liquid contacting the wire and pipe.

Abstract: A liquid presence detector and method of using the same for a gas fluid conduit is provided by a capacitor that is placed inside the conduit and that is formed of two interwoven wire grids with one of the grids being insulated and the other grid being uninsulated. In one embodiment, the capacitor is generally planar and is oriented generally transverse a longitudinal axis of the conduit with a peripheral portion lying in a generally axial orientation along an inner surface of the conduit. A circuit is provided that measures capacitance between the two wire grids. The conduit is electrically grounded. Liquid particles entrained in the gas fluid or traveling along the conduit wall contact the capacitor and changes the capacitance thereof. In another embodiment, the capacitor is formed as a generally open cylinder positioned coaxially within the conduit.

Abstract: The combination of a quick connect fluid coupling having a nipple assembly axially connectable with a coupler assembly, and an integral valve and seal member made of an elastomeric material. The integral valve and seal member closes the nipple assembly when the quick coupling is disconnected and opens the nipple assembly to fluid flow when the quick coupling is made up. The nipple assembly has axially interfitted male and female parts that capture the integral valve and seal member between two shoulders when the male and female parts are mated. The nipple assembly also has a hollow nipple probe that inserts into a portion of the coupler assembly. The integral valve and seal member has an annular body seal portion that seals the interfitted nipple male and female parts, and a smaller diameter valve disk concentrically connected to the annular seal portion by a flexible hinge portion. The valve disk seals against a flange in the nipple assembly.

Abstract: An elastomeric sealing device for sealing a fluid opening of passageway at the interface of two mateable parts comprises a bi-lobed elastomeric seal integrally molded on a relatively rigid retainer. The retainer is generally planar in construction with a peripheral load bearing portion that is clamped between the facing sealing surfaces of the mated parts, and an inwardly extending thinner flange portion which is imbedded in the molded bi-lobed seal. The bi-lobed seal is of unitary construction and has a first lobe which extends perpendicularly from one side of the retainer and is sized and shaped to be received in a recess or groove in the sealing surface of one of the mated parts. The seal has a second lobe which extends inwardly and transversely from the first lobe and is sized and shaped to form an interference fit with a boss on the other mated part.