The present application describes a magneto-optical based guided waves system for inspection and monitoring of assets. The system has a magnetostrictive-based wave emitter for signal generation and a network of optical fiber sensors for detection, both mechanically coupled to the asset, a device with embedded software for hardware control and signal processing, and a framework capable of providing visual and analytic insights about the condition of the structure of interest. The enhancement of flaw detection, location and characterization abilities of the system are obtained through the use of high sensitivity and passive fiber optics sensors with very small size, distributed and multi-parameter sensing capabilities.

A metallic diaphragm disk incorporating a piezoelectric material bonded thereto and operatively coupled to a base rim of a housing provides for closing an open-ended cavity at the first end of the housing. In one aspect, plastic film adhesively bonded to at least one of an outer rim of the housing or an outer-facing surface of the disk provides for receiving an adhesive acoustic interface material to provide for coupling the housing to the skin of a test subject. In another aspect, an outer-facing surface of a base portion of the housing provides for receiving an adhesive acoustic interface material to provide for coupling the housing to the skin of a test subject, at least one inertial mass is operatively coupled to a central portion of the metallic diaphragm disk, and the opening in the first end of the housing is closed with a cover.

Described herein is a method for manufacturing, or for use in manufacturing a flexible ultrasonic transducer array and the resultant ultrasonic transducer array. The method includes providing a layer of piezoelectric material onto a foil substrate and using additive techniques to apply at least one electrode to a surface of the piezoelectric material such that the electrodes are arranged in an electrode array. The method also includes using the additive techniques to applying a plurality of electrical conduction tracks and a plurality of electrical connectors to the surface of the piezoelectric material or to a layer of dielectric material provided on the surface of the piezoelectric material, such that respective electrical conduction tracks electrically connect a respective electrode to a respective electrical connector. The additive techniques comprise at least one of: masking, deposition, photo patterning, printing or patterned coating. Optionally layer of piezoelectric material comprises a layer of inorganic piezoelectric material that has been deposited onto the foil.

Disclosed is a vibration generator for shoes, including: a flat vibration plate having a length longer than the width thereof; support pieces horizontally protruding in the widthwise direction of the vibration plate; upper and lower casings coupled while restricting each end portion of each support piece, so as to accommodate the vibration plate therein; core magnets fixedly provided in one or more places among the respective end portions in the lengthwise direction of the vibration plate; upper magnets fixed to the upper casing so as to face the core magnets, thereby generating a repulsive force; and bottom magnets fixed to the lower casing so as to face the core magnets, thereby generating a repulsive force.

An apparatus for improving transmission directivity according to an embodiment of the present invention includes a phased array probe including a channel 1 transducer and a channel 2 transducer which are arranged at intervals corresponding to a quarter wavelength at a center frequency of a guided wave pulse for long-range ultrasonic testing, and a drive unit which supplies electric pulses with opposite phases to the channel 1 transducer and the channel 2 transducer of the channel 1 transducer and the channel 2 transducer, which is disposed on the front end on the basis of an intended transmission direction, is driven with delay by a time corresponding to a quarter frequency of the center frequency than the other transducer disposed on the rear end.

Disclosed is a flexible tactile actuator including a tactile transmitter configured to be flexible and including magnetic particles capable of being polarized in response to an external magnetic field and a matrix layer including the magnetic particles, a magnetic field generator disposed below the tactile transmitter and configured to generate a magnetic field in the tactile transmitter, and an elastic member provided in a shape of a film, having at least a portion in surface contact with the magnetic field generator, and attached to be in surface contact with one of a top surface and a bottom surface of the tactile transmitter.

Disclosed is a flexible tactile actuator including a tactile transmitter configured to be flexible and including magnetic particles capable of being polarized in response to an external magnetic field and a matrix layer including the magnetic particles, a magnetic field generator disposed below the tactile transmitter and configured to generate a magnetic field in the tactile transmitter, and an elastic member provided in a shape of a film, having at least a portion in surface contact with the magnetic field generator, and attached to be in surface contact with one of a top surface and a bottom surface of the tactile transmitter.

A process for the ultrasonic treatment of mined sand proppant for hydraulic fracture treatment, the process comprising the steps of pumping sand particles in an aqueous fluid to an ultrasonic device operating at a suitable frequency and a suitable power range. The sand particles remain at a proximity to the ultrasonic device for a first predetermined period of time to remove contaminants from the sand particles.

A process for the ultrasonic treatment of mined sand proppant for hydraulic fracture treatment, the process comprising the steps of pumping sand particles in an aqueous fluid to an ultrasonic device operating at a suitable frequency and a suitable power range. The sand particles remain at a proximity to the ultrasonic device for a first predetermined period of time to remove contaminants from the sand particles.

An actuator comprises a magnetostrictive element operably connected to a solenoid coil, preloaded to a default length, having an expanded length greater than the default length, and having a compressed length less than the default length. The compressed length of the magnetostrictive element is not less than a length at which permanent mechanical degradation of the magnetostrictive element occurs. An output element is disposed proximate to a terminal end of the actuator and movable between an original position and an actuated position. The coil can be energized or deenergized between a lower level and a higher level for part or all of an expansion or compression of the magnetostrictive element anywhere within the range between the compressed length and the expanded length. The magnetostrictive element can comprise a terbium alloy.