Analysis of the Aperture Function of the Scattering Volume of the Collimation System of the Scattering Computed Tomography of Steel Products with a Ring Detector; Russian Journal of Nondestructive Testing; Vol. 56, iss. 6

Analysis of the Aperture Function of the Scattering Volume of the Collimation System of the Scattering Computed Tomography of Steel Products with a Ring Detector; Russian Journal of Nondestructive Testing; Vol. 56, iss. 6

التفاصيل البيبلوغرافية
Parent link:	Russian Journal of Nondestructive Testing=Дефектоскопия.— : Springer Nature Vol. 56, iss. 6.— 2020.— P. 506-515
مؤلفون مشاركون:	Национальный исследовательский Томский политехнический университет Институт неразрушающего контроля Региональный центр аттестации, контроля и диагностики, Национальный исследовательский Томский политехнический университет Инженерная школа неразрушающего контроля и безопасности Отделение контроля и диагностики, Национальный исследовательский Томский политехнический университет Институт неразрушающего контроля Российско-китайская научная лаборатория радиационного контроля и досмотра
مؤلفون آخرون:	Zhuravsky E. E. Evgeny Evgenjevich, Belkin D. S. Denis Sergeevich, Kapranov B. I. Boris Ivanovich, Chakhlov S. V. Sergey Vladimirovich
الملخص:	Title screen This article discusses the features of the collimation system of a tomograph for monitoring steel products by Compton backscattering. The analysis of the aperture functions of the scattering volume for the ring-type detector with different sizes of the pinholes of the primary and secondary collimators is carried out. The efficiency of using a ring type detector is shown. Recommendations to select pinhole sizes of the primary and secondary collimators are given. An indirect estimation of the possible scanning depth of steel products is given Текстовый файл AM_Agreement
اللغة:	الإنجليزية
منشور في:	2020
الموضوعات:	электронный ресурс труды учёных ТПУ compton tomography collimation system pinhole non-destructive testing radiation inspection flaw detection комптоновская томография коллимационные системы отверстия неразрушающий контроль дефектоскопия
الوصول للمادة أونلاين:	https://doi.org/10.1134/S106183092006008X Статья на русском языке
التنسيق:	MixedMaterials الكتروني فصل الكتاب
KOHA link:	https://koha.lib.tpu.ru/cgi-bin/koha/opac-detail.pl?biblionumber=665260

مواد مشابهة

Calculating Parameters of Pinhole in Collimation System of Albedo Computed Tomography of Steel Products; Russian Journal of Nondestructive Testing; Vol. 56, iss. 2
منشور في: (2020)

Simulation Model for Studying Object Structure Using Method of Layer-by-Layer Digital Compton Radiography; Russian Journal of Nondestructive Testing; Vol. 57, iss. 10
منشور في: (2021)

Thermal Testing of Corundum Ceramics: Conventional Techniques under Optical Heating; Russian Journal of Nondestructive Testing; Vol. 60, iss. 7
منشور في: (2024)

Thermal Testing of Corundum Ceramics: Pulsed Heating and Optimized Data Processing Algorithms; Russian Journal of Nondestructive Testing; Vol. 60, iss. 9
منشور في: (2024)

Разработка алгоритма реконструкции распределения плотности по глубине изделия для сканирующей системы томографа "Comscan"; Известия Томского политехнического университета [Известия ТПУ]; Неразрушающий контроль и диагностика
حسب: Дашиева О. Ц.
منشور في: (2008)

On Improving the Technology of Pulse-Flaw Detection of High-Voltage Power Transformer Windings; Russian Electrical Engineering; Vol. 94, iss. 2
حسب: Mytnikov A. V. Aleksey Vladimirovich
منشور في: (2023)

Method and Equipment for Infrared and Ultrasonic Thermographic Testing of Large-Sized Complex-Shaped Composite Products; Russian Journal of Nondestructive Testing; Vol. 57, iss. 7
منشور في: (2021)

Simulation Model for Evaluation of Nonmonoenergeticity and Scattering Artifacts in Computer Tomography; Russian Journal of Nondestructive Testing; Vol. 57, iss. 7
منشور في: (2021)

Evaluating the dependency of neutron spectra and absorbed dose rates on the collimation field size in fast neutron therapy; Heliyon; Vol. 7, iss. 11
حسب: Shehada A. Abdullah
منشور في: (2021)

Optimized Filtered Back-Projection Tomographic Reconstruction Algorithm for the Step-Shift Scanning of a Sample; Research in Nondestructive Evaluation; Vol. 30, iss. 3
حسب: Ozdiev A. H. Ali Hosenovich
منشور في: (2019)

Simulation of Translational Data Acquisition Scheme of X-Ray Computed Tomography for Application in NDT; Key Engineering Materials; Vol. 769 : High Technology: Research and Applications (HTRA 2017)
منشور في: (2018)

Finite Rayleigh length in Compton backscattering; Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment; Vol. 1073
حسب: Gavrilenko D. V. Dmitry Vladimirovich
منشور في: (2025)

A design for a magnetic-wheeled flaw detector platform; Journal of Economics and Social Sciences; № 17
حسب: Terentyev E. V. Evgeny Vladislavovich
منشور في: (2021)

Applying the Algorithm of Calculation in the Frequency Domain to Ultrasonic Tomography; Russian Journal of Nondestructive Testing; Vol. 54, iss. 4
منشور في: (2018)

Method of interval fusion with preference aggregation in brightness thresholds selection for automatic weld surface defects recognition; Measurement; Vol. 236
حسب: Muravyov (Murav’ev) S. V. Sergey Vasilyevich
منشور في: (2024)

Processing of Active Thermal Nondestructive Testing Results by the Method of Wavelet Analysis; Russian Journal of Nondestructive Testing; Vol. 47, iss. 4
حسب: Vavilov V. P. Vladimir Platonovich
منشور في: (2011)

Определение положения и размеров несплошностей при альбедной дефектоскопии; Дефектоскопия; № 4
منشور في: (2024)

Исследование апертурных функций сканирующей системы томографа COMSCAN; Современные техника и технологии; Т. 1
حسب: Никитина О. П.
منشور في: (2004)

A Mathematical Model of Digital Linear Tomography; Russian Journal of Nondestructive Testing; Vol. 55, iss. 5
منشور في: (2019)

Spectral structure of a polycapillary lens shaped X-ray beam; Journal of Instrumentation; Vol. 13 : Radiation from Relativistic Electrons in Periodic Structures (RREPS-17)
منشور في: (2018)

Оценка возможности создания коллимирующего устройства для проведения НЗТ на реакторе ИРТ-Т; VII Школа-конференция молодых атомщиков Сибири
حسب: Молодов П. А.
منشور في: (2016)

Mathematical Models of Radiation Transparency of Test Objects When Using Sandwich X-Ray Radiation Detectors; Russian Journal of Nondestructive Testing; Vol. 56, iss. 2
حسب: Udod V. A. Viktor Anatolievich
منشور في: (2020)

The Possibility Investigation of Medical Electron Beam Shaping Using Devices Made from Plastics with Metallic Impurities; Physics of Atomic Nuclei; Vol. 87, iss. 12
منشور في: (2024)

Algorithms for Modeling the Formation and Processing of Information in X-Ray Tomography of Foam Materials; Russian Journal of Nondestructive Testing; Vol. 57, iss. 3
منشور في: (2021)

Photon spectrum and polarization for high conversion coefficient in the Compton backscattering process; Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms; Vol. 402
منشور في: (2017)

Active thermal inspection of composite materials with the use of neural networks; Russian Journal of Nondestructive Testing; Vol. 47, iss. 10
حسب: Vavilov V. P. Vladimir Platonovich
منشور في: (2011)

Разработка метода и средств реконструктивной комптоновской томографии: диссертация на соискание ученой степени кандидата технических наук
حسب: Капранов Б. И. Борис Иванович
منشور في: (Томск, 2000)

Разработка конструкции и исследование системы пространственного отбора для комптоновской томографии на базе многоканального коллиматора; Репутация & качество
حسب: Белкин Д. С. Денис Сергеевич
منشور في: (2008)

Detecting unit for X-ray nondestructive testing systems; Control and Communications (SIBCON)
حسب: Nam I. F. Irina Feliksovna
منشور في: (2015)

A Cumulative Sums Algorithm for Segmentation of Digital X-ray Images; Journal of Nondestructive Evaluation; Vol. 38
حسب: Vorobeychikov S. E. Sergey Erikovich
منشور في: (2019)

Calculation Model of X-Ray Computed Tomography with Density Assessment Function; Russian Journal of Nondestructive Testing; Vol. 57, iss. 3
منشور في: (2021)

Applying the Algorithm of Calculation in the Frequency Domain to Ultrasonic Tomography of Layered Inhomogeneous Media Using Matrix Antenna Arrays; Russian Journal of Nondestructive Testing; Vol. 55, iss. 7
منشور في: (2019)

The Nature of Metal Artifacts in X-ray Computed Tomography and Their Reduction by Optimization of Tomography Systems Parameters; Applied Sciences; Vol. 13, iss. 4
منشور في: (2023)

Time- and Phase-Domain Thermal Tomography of Composites; Photonics; Vol. 5, iss. 4
حسب: Vavilov V. P. Vladimir Platonovich
منشور في: (2018)

Computer-Aided Recognition of Defects in Welded Joints during Visual Inspections Based on Geometric Attributes; Russian Journal of Nondestructive Testing; Vol. 56, iss. 3
حسب: Muravyov (Murav’ev) S. V. Sergey Vasilyevich
منشور في: (2020)

Dynamic thermal tomography: Recent improvements and applications; NDT & E International; Vol. 71
حسب: Vavilov V. P. Vladimir Platonovich
منشور في: (2015)

A thermal tomographic unit for testing composite materials; Russian Journal of Nondestructive Testing; Vol. 50, iss. 11
حسب: Vavilov V. P. Vladimir Platonovich
منشور في: (2014)

Digital Coherent Signal Processing with Calculations in Frequency Domain for Solving Ultrasound Tomography Problems Using Matrix Antenna Arrays with Nonequidistant Arrangement of Elements; Russian Journal of Nondestructive Testing; Vol. 58, iss. 10
حسب: Dolmatov D. O. Dmitry Olegovich
منشور في: (2022)

Determination of Position and Size of Non-Flaws at Albedo Flaw Detection; Russian Journal of Nondestructive Testing; Vol. 60, iss. 4
منشور في: (2024)

Анализ систем сканирования в комптоновской томографии. Возможные области применения; Известия Томского политехнического университета [Известия ТПУ]; Т. 306, № 1
منشور في: (2003)