A system for monitoring the erosion of internal components of a valve having a valve (200, 300, 400) which in turn comprising a body (44, 17, 24), a trim (46, 19, 26) and a seat (21, 28, 48) and at least an ultrasonic probe (22, 40, 29) able to transmit ultrasonic waves through the internal components and receive waves reflection through. In this system, the gaps between the internal components of the valve are closed and the distances between them are almost equal to zero so that the continuity between components is able to transfer the waves determining therefore the distance between the ultrasonic probe (22, 40, 29) and the internal component to be monitored.

This disclosure relates generally to method and system for non-contact ultrasound based vibration detection. Here, non-contact vibration detection plays crucial role in industries for monitoring and analyzing machine vibrations to predict early warnings of the potential failures. The method includes receiving, from a non-contact ultrasonic air transducer a signal reflected from a plurality of vibrating parts of a machine. The non-contact ultrasound obtains vibrational frequencies corresponding to the vibrating part of the machine which are further analyzed to determine an electrical impedance of a piezoelectric element. Further, based on the electrical impedance occurred vibrations are detected in each vibrating part from the plurality of vibrating parts of the machine. The measured impedance signal utilizes continuous sinusoidal excitation which enables narrow band filtering to increase signal to noise ratio. The proposed disclosure provides a low cost simple solution thereby reducing design complexity of the non-contact ultrasonic transducer circuit.

A restitution coefficient measuring device measuring a restitution coefficient of a measuring object includes a holder that holds a spherical impact ball colliding with the measuring object with an elastic member, a shooting mechanism for shooting the impact ball held by the holder from the holder toward the measuring object, a speed measuring unit that measures both a collision speed at which the impact ball collides with the measuring object and a restitution speed at which the impact ball bounces from the measuring object, and a computing unit that calculates the restitution coefficient on the basis of the restitution speed with respect to the collision speed. A hole for bleeding air is bored on any side surface of the holder. The elastic member is an independent member replaceable with respect to the holder and is disposed at an end portion of the holder in an axial direction.

Acoustic transducers generate and receive acoustic signals at multiple locations along a surface of rigid structure, wherein longitudinal spacing between transducer locations define measurement zones. Acoustic signals with chosen amplitude-time-frequency characteristics excite multiple vibration modes in the structure within each zone. Small mechanical changes in inspection zones lead to scattering and attenuation of broadband acoustic signals, which are detectable as changes in received signal characteristics as part of a through-transmission technique. Additional use of short, narrowband pulse acoustic signals as part of a pulse-echo technique allows determination of the relative location of the mechanical change within each zone based on the differential delay profiles. For accurate acoustic modeling and simulation, the mesh size, time step, time delay, and time-window size are optimized. Frequency normalization of the Short-Time Fourier Transform of acoustic response output improves experiment-simulation cross-validation. Applications of the method to structures with arbitrarily complex geometries are also demonstrated.

A method for testing a component non-destructively, particularly for internal defects, includes the following steps: a) providing a rotationally symmetrical component having a plurality of preferably cylindrical recesses, which are arranged at one or more hole circles, b) arranging a transmitter probe serving as an ultrasound transmitter and a receiver probe serving as an ultrasound receiver spaced apart from each other outside the component such that ultrasound waves can be irradiated into a shaded area located behind one of the recesses in the component by the transmitter probe and ultrasound waves which are diffracted at least at one defect present in the shaded area can be received by the receiver probe, and c) using time of flight to determine whether one or more faults are present in the shaded area. An apparatus carries out such a method.

An infrastructure detection and monitoring system includes a remote data storage system that receives and communicates sensor data and signals regarding infrastructure health. The remote data storage system processes and/or stores at least a first sensor data portion and generates advisory signals based on the first sensor data portion. The advisory signals are communicated to a receiver device responsive to the sensor data indicating that the health of the infrastructure indicates imminent failure. Additionally or alternatively, the receiver device can generate one or more control signals responsive to the advisory signals or responsive to the sensor data indicating that the heath of the infrastructure indicates imminent failure of the infrastructure.

According to an embodiment, a linear-scan ultrasonic inspection apparatus comprises: an ultrasonic array probe having ultrasonic elements aligned in a first direction; a delay-time calculator configured to calculate, referring to the surface shape of the test object, values of delay time of at least one of transmitting and receiving ultrasonic wave; an overlapping-region adjustor configured to set conditions for generating an image of an overlapping region; and an integrated-image generator configured to generate first image data of a region including the overlapping region. The overlapping-region adjustor is configured to set the conditions of the surface shape to be referred to the delay-time calculator in calculating the values of the delay time at either the first-probe setting position or the second-probe setting position as both of a first acquired shape obtained at the first-probe setting position and a second acquired shape obtained at the second-probe setting position.

A method of additive manufacturing a part on a build plate includes additive manufacturing at least a first layer of the part on the build plate, supplying a series of frequencies to the build plate from a resonate probe connected to the build plate, processing a received response from an ultrasonic detector connected to the build plate, determining a series of resonant frequencies of the build plate and a corresponding series of peak intensities from the received response, comparing the resonant frequencies and the corresponding peak intensities to a set of reference resonant frequencies and a corresponding set of reference peak intensities, respectively, calculating an intensity difference between a peak intensity and a reference peak intensity or a frequency difference between a resonant frequency and a reference resonant frequency, and additive manufacturing a subsequent layer of the part if the intensity difference and the frequency difference are below a threshold.

Disclosed is a piezoelectric transducer of the type including a stack of a contact piece, a piezoelectric pellet and a support of very great stiffness. Specifically, the contact piece forms tips, the respective apex of which constitutes contact points that are spatially isolated from one another. Also disclosed is a process for the manufacture of such a contact piece as well as a resonant ultrasound spectroscopy device including one or more of such piezoelectric transducers.

A method for inspecting a condition of an elongated load bearing member of a rope of a hoisting apparatus, such as an elevator includes ultrasound scanning one or more regions of the load bearing member with an ultrasonic scanner. A method for inspecting a condition of a rope of a hoisting apparatus, such as an elevator, which rope includes at least one load bearing member includes inspecting at least one load bearing member of the rope with an ultrasound scanner.