Thomas Riedel scite author profile

A side effect of increased volume coverage by using multi-row and flat-panel detectors in computed tomography (CT) is the concurrently growing contribution of scattered radiation to the measured signal. In order to investigate the effect of scatter on x-ray projections used for CT imaging, our study aimed at the development of a simulation tool for fast calculation of primary and scatter intensities. We developed a deterministic method to assess the contribution of single-scatter events to the measured signal. The investigation of multiple scatter by Monte Carlo simulations showed that it results in a smooth signal as compared to single scatter. A hybrid method is proposed in order to optimize the performance of the scatter simulation: a fast and exact analytical calculation of the single-scatter intensity combined with a coarse Monte Carlo (MC) estimate of multiple scatter to reduce overall computational expenses, while assuring an acceptable signal quality. The results of the hybrid simulation of total scatter were in excellent agreement with the corresponding MC only simulations, thereby allowing us to reduce computational time by orders of magnitude. Estimates of two-dimensional scatter distributions for flat-panel CT imaging took about 30-40 s (per projection). The hybrid method provides a realistic simulation of x-ray scatter and offers a basis for scatter correction approaches.

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Mean Value Theorems and Functional Equations

Sahoo

Riedel

1998

128

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Microstructural analysis of short glass fiber reinforced thermoplastics based on x-ray micro-computed tomography

Hessman

Riedel

Welschinger

et al. 2019

Composites Science and Technology

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Mean Value Theorems and Functional Equations

Sahoo¹,

Riedel²

1998

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Mechanical and microstructural characterization of flowing weld lines in injection-molded short fiber-reinforced PBT

et al. 2019

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The aim of this work is an extensive experimental mechanical and microstructural characterization of flowing weld lines (WLs) in injection-molded short glass fiber-reinforced polybutylenterephthalate (PBT) using X-ray computed tomography and digital image correlation (DIC). It was found that the induced fiber orientation (FO) in a flowing WL is similar to that induced by flow along a wall. In this test case, the impact of the flowing WL on the FO did not vanish after a flow length of 70 mm. The shape of the inserts, which originated the flowing WLs, only had a marginal effect on the induced FO gradient. By reducing part thickness, the erasing of the FO gradient induced by the WL is reached at shorter flow distances. At the WLs, there is a reduction of the fiber volume fraction in comparison to the regions far from the WL plane. DIC results show a pronounced strain localization at the WL, which can be explained by the FO gradient induced by the WL.

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Thomas Riedel

Combining deterministic and Monte Carlo calculations for fast estimation of scatter intensities in CT

Mean Value Theorems and Functional Equations

Microstructural analysis of short glass fiber reinforced thermoplastics based on x-ray micro-computed tomography

Mean Value Theorems and Functional Equations

Mechanical and microstructural characterization of flowing weld lines in injection-molded short fiber-reinforced PBT

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