Ústav technické a experimentální fyziky Institute of Experimental and Applied Physics

Utilization of dual-source X-ray tomography for reduction of scanning time of wooden samples

NázevTitle
Utilization of dual-source X-ray tomography for reduction of scanning time of wooden samplesUtilization of dual-source X-ray tomography for reduction of scanning time of wooden samples
Druh výsledkuResult type
Článek v časopiseJournal article
AutořiAuthors
T. Fíla, I. Kumpová, I. Jandejsek, M. Kloiber, D. Tureček, D. Vavřík
DOIDOI
10.1088/1748-0221/10/05/C05008
Časopis / citaceJournal / citation
JOURNAL OF INSTRUMENTATION. 2015, 2015(10), ISSN 1748-0221.
RokYear
2015
JazykLanguage
eng
WoSWoS
000357993300008
ScopusScopus
2-s2.0-84929190994
RIVRIV
RIV/68407700:21670/15:00232405!RIV16-MSM-21670___
ProjektProject
Jiný veřejný zdrojJiný veřejný zdroj

AbstraktAbstract

We present a novel dual-source/dual energy (DSCT/DECT) micro-tomography system including results of high-resolution DSCT reconstruction. The DSCT micro-tomography setup was designed as a multi-purpose X-ray imaging device equipped with two pairs of X-ray tubes and detectors in orthogonal arrangement with independent control of beam parameters. Both pairs (tube-detector) are mounted on a computer numerical control positioning system and can be independently set up to different geometries (e.g. with different magnification of each pair). In this work the simultaneous scanning of the object by two tube-detector pairs was used for approximately half reduction of tomography scanning time. The developed imaging procedure was applied for scanning of a wooden sample locally damaged during a semi-destructive test for assessment of wood quality. Prior to the tomography measurements the setup geometry was precisely adjusted in terms of magnification, horizontal and vertical tube-specimen-detector alignment of both pairs. DSCT measurements were carried out in sequence (2 x 90 degrees for each tube) with identical 100 mu m image resolution. It was proven that the presented experimental setup combined with appropriate control technique significantly reduces tomography scanning time of materials with complex micro-structure.

We present a novel dual-source/dual energy (DSCT/DECT) micro-tomography system including results of high-resolution DSCT reconstruction. The DSCT micro-tomography setup was designed as a multi-purpose X-ray imaging device equipped with two pairs of X-ray tubes and detectors in orthogonal arrangement with independent control of beam parameters. Both pairs (tube-detector) are mounted on a computer numerical control positioning system and can be independently set up to different geometries (e.g. with different magnification of each pair). In this work the simultaneous scanning of the object by two tube-detector pairs was used for approximately half reduction of tomography scanning time. The developed imaging procedure was applied for scanning of a wooden sample locally damaged during a semi-destructive test for assessment of wood quality. Prior to the tomography measurements the setup geometry was precisely adjusted in terms of magnification, horizontal and vertical tube-specimen-detector alignment of both pairs. DSCT measurements were carried out in sequence (2 x 90 degrees for each tube) with identical 100 mu m image resolution. It was proven that the presented experimental setup combined with appropriate control technique significantly reduces tomography scanning time of materials with complex micro-structure.