Performance of a focused 2D anti-scatter grid for industrial X-ray computed tomography
Performance of a focused 2D anti-scatter grid for industrial X-ray computed tomography
X-ray computed tomography (XCT) is increasingly being used for the measurement and inspection of large dense metallic engineering components. When scanning such components, the quality of the data is degraded by the presence of scattered radiation. In this work, the performance of a focused 2D anti-scatter grid (ASG) is investigated for scanning samples made from cobalt chrome and Inconel on a 450 kV cone-beam XCT system. The devised scatter correction method requires one additional scan of the sample, and for projections to be algorithmically processed prior to reconstruction. The results show that the ASG based scatter correction method increases the contrast-to-noise of the data by 14.5% and 61.5% for the cobalt chrome and Inconel samples, respectively. Furthermore, the method increases edge sharpness by 6% and 16.9% for outer and inner edges, respectively.
anti-scatter grid, high energy X-ray CT, industrial X-ray CT, scatter
651-661
Lifton, Joseph John
9be501ec-2742-4ab6-8a5a-996c5b7c23ae
Tan, Zheng Jie
b7e6d353-4c10-4e77-a86e-1a6df8fff223
Filemon, Christian
17c0b40e-4293-4e29-9ecd-595c0b240b98
1 May 2025
Lifton, Joseph John
9be501ec-2742-4ab6-8a5a-996c5b7c23ae
Tan, Zheng Jie
b7e6d353-4c10-4e77-a86e-1a6df8fff223
Filemon, Christian
17c0b40e-4293-4e29-9ecd-595c0b240b98
Lifton, Joseph John, Tan, Zheng Jie and Filemon, Christian
(2025)
Performance of a focused 2D anti-scatter grid for industrial X-ray computed tomography.
Journal of X-Ray Science and Technology, 33 (3), .
(doi:10.1177/08953996251325072).
Abstract
X-ray computed tomography (XCT) is increasingly being used for the measurement and inspection of large dense metallic engineering components. When scanning such components, the quality of the data is degraded by the presence of scattered radiation. In this work, the performance of a focused 2D anti-scatter grid (ASG) is investigated for scanning samples made from cobalt chrome and Inconel on a 450 kV cone-beam XCT system. The devised scatter correction method requires one additional scan of the sample, and for projections to be algorithmically processed prior to reconstruction. The results show that the ASG based scatter correction method increases the contrast-to-noise of the data by 14.5% and 61.5% for the cobalt chrome and Inconel samples, respectively. Furthermore, the method increases edge sharpness by 6% and 16.9% for outer and inner edges, respectively.
Text
Performance of a focused 2D anti scatter grid - Accepted Version
- Accepted Manuscript
More information
Accepted/In Press date: 16 February 2025
e-pub ahead of print date: 25 March 2025
Published date: 1 May 2025
Keywords:
anti-scatter grid, high energy X-ray CT, industrial X-ray CT, scatter
Identifiers
Local EPrints ID: 500481
URI: http://eprints.soton.ac.uk/id/eprint/500481
ISSN: 0895-3996
PURE UUID: 65c85635-3083-45e1-846e-1a45efca72ef
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Date deposited: 01 May 2025 16:37
Last modified: 28 Aug 2025 02:26
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Contributors
Author:
Joseph John Lifton
Author:
Zheng Jie Tan
Author:
Christian Filemon
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