This rotational scanner follows the radius of the object to be scanned while simultaneously moving along the objects axis to quickly render a complete image.
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DESCRIPTION: Non-destructive imaging has applications in many different industries, particularly within the aerospace, civil engineering, and the medical industries, notably pharmaceutical and biomedical industries. Currently, most industries utilize a traditional Cartesian (x-y plane) scanners, but these scanners have limitations. To capture an image, Cartesian scanners must travel along rows and columns, slowing down, and stopping to change direction. This greatly increases the amount of time needed to capture a complete image. This technology from innovators at Missouri University of Science and Technology seeks to provide a solution to slow imaging systems. A new scanner has been designed and developed that uses two-axis polar positioning rather than two-axis grid positioning. This rotational scanner follows the radius of the object to be scanned while simultaneously moving along the objects axis to quickly render a complete image. The rotational scanner has been tested and can scan an area of 5 square meters in less than 10 minutes, while a Cartesian scanner would require several hours to render the same image. This new scanner is also equipped with custom software to ensure speedy data collection and data transfer. Technology Features: Rotational Scanner Two-Axis Polar Positioning Custom software and data transfer system Technology Benefits: Reduced scanning time Reduced rendering time Faster data transfer