System and method for progressive damage monitoring and failure event prediction in a composite structure
First Claim
1. A system for monitoring damage progression in a composite structure subjected to an applied load, the system comprising:
- a load sensor operable for measuring the applied load and outputting a load profile signal indicative of the measured applied load;
an array of acoustic emission sensors acoustically coupled to the composite structure, and each operable for simultaneously measuring acoustic emission data representing acoustic emissions from the composite structure in response to the applied load indicative of acoustic events in an area of possible damage to the composite structure, each of the acoustic emission sensors having a fixed two-dimensional coordinate associated therewith;
a camera operable for capturing time-synchronized image data of the area of possible damage to the composite structure, in a designated portion of the electromagnetic spectrum, while the composite structure is subjected to the applied load, the time-synchronized image data being simultaneously collected with measurement of both the acoustic emission data and applied load, and containing signatures of interest indicative of the possible damage, including a size and a location of the possible damage; and
a monitoring device in communication with the load sensor, the acoustic emission sensors, and the camera, wherein the monitoring device is configured to synchronously receive the load profile signal from the load sensor, receive the acoustic emission data from the acoustic emission sensors, and receive the image data from the camera, the two-dimensional coordinates stored in the monitoring device, the monitoring device to assign to acoustic events a signal energy indicator comprising one of a low energy indicator, a mid-energy indicator, or a high energy indicator, and to automatically map the measured acoustic emission data onto the collected image data by generating clusters of the acoustic events around the signatures of interest, to detect an increase in size of the clusters indicative of an area of damage progression in the area of possible damage by an increase in mid-energy and high energy indicators of acoustic events, predict, using the size and the location of the possible damage from the image data and a trend in total signal energy from the acoustic emission data, a time of failure of the composite structure in the area of damage progression using the time-synchronized images, and execute a control action indicative of the predicted time of failure, including generating an alert signal.
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Accused Products
Abstract
A system for monitoring damage progression in a composite structure includes a load sensor, acoustic emission sensors, a camera, and a monitoring device. The load sensor measures an applied load to the structure. The sensors measure acoustic emission data indicative of possible damage to the structure. The camera captures image data of the structure in a designated portion of the electromagnetic spectrum. The monitoring device executes a method by which the acoustic emission data is synchronously collected with the image data and the applied load. The device automatically maps the acoustic emission data onto the image data to detect an area of damage progression in the composite structure. A failure event in the detected area of damage progression may be predicted using the mapped data, and a control action may be executed in response to the predicted failure event.
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Citations
17 Claims
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1. A system for monitoring damage progression in a composite structure subjected to an applied load, the system comprising:
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a load sensor operable for measuring the applied load and outputting a load profile signal indicative of the measured applied load; an array of acoustic emission sensors acoustically coupled to the composite structure, and each operable for simultaneously measuring acoustic emission data representing acoustic emissions from the composite structure in response to the applied load indicative of acoustic events in an area of possible damage to the composite structure, each of the acoustic emission sensors having a fixed two-dimensional coordinate associated therewith; a camera operable for capturing time-synchronized image data of the area of possible damage to the composite structure, in a designated portion of the electromagnetic spectrum, while the composite structure is subjected to the applied load, the time-synchronized image data being simultaneously collected with measurement of both the acoustic emission data and applied load, and containing signatures of interest indicative of the possible damage, including a size and a location of the possible damage; and a monitoring device in communication with the load sensor, the acoustic emission sensors, and the camera, wherein the monitoring device is configured to synchronously receive the load profile signal from the load sensor, receive the acoustic emission data from the acoustic emission sensors, and receive the image data from the camera, the two-dimensional coordinates stored in the monitoring device, the monitoring device to assign to acoustic events a signal energy indicator comprising one of a low energy indicator, a mid-energy indicator, or a high energy indicator, and to automatically map the measured acoustic emission data onto the collected image data by generating clusters of the acoustic events around the signatures of interest, to detect an increase in size of the clusters indicative of an area of damage progression in the area of possible damage by an increase in mid-energy and high energy indicators of acoustic events, predict, using the size and the location of the possible damage from the image data and a trend in total signal energy from the acoustic emission data, a time of failure of the composite structure in the area of damage progression using the time-synchronized images, and execute a control action indicative of the predicted time of failure, including generating an alert signal. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A method for monitoring damage progression in a composite structure subjected to an applied load, the method comprising:
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measuring acoustic emission data, via an array of acoustic emission sensors each acoustically coupled to the composite structure each of the acoustic emissions sensors having a fixed two-dimensional coordinate associated therewith, the acoustic emission data representing acoustic emissions from the composite structure in response to the applied load, when the composite structure is subjected to the applied load, wherein the acoustic emission data from each of the acoustic emission sensors is simultaneously collected and is indicative of acoustic events in an area of possible damage to the composite structure; synchronously collecting image data of the area of possible damage via a camera in a designated portion of the electromagnetic spectrum, such that the collected image data is time-synchronized with respect to measuring the acoustic emission data, the time-synchronized image data containing image signatures of interest indicative of the possible damage, including a size and a location of the possible damage; measuring the applied load via a load sensor while synchronously collecting the acoustic emission data and the image data, such that the applied load is time-synchronized with both the collected image data and the acoustic emission data; and automatically mapping the collected acoustic emission data onto the collected image data via a programmable monitoring device to thereby detect an area of damage progression in the composite structure corresponding to the applied load, by assigning acoustic events a signal energy indicator comprising one of a low energy indicator, a mid-energy indicator, or a high energy indicator, including generating clusters of the acoustic events around the signatures of interest, detecting an increase in size of the clusters indicative of an area of damage progression in the area of possible damage by an increase in mid-energy and high energy indicators of acoustic events, predicting a time of failure of the composite structure using the time-synchronized images using the size and the location of the possible damage from the image data and a trend in total signal energy of the acoustic emission data, and executing a control action indicative of the time of failure, including generating an alert signal. - View Dependent Claims (11, 12, 13, 14, 15, 16, 17)
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Specification