Lamb-Wave-Based Tomographic Imaging Techniques for Hole-Edge Corrosion Monitoring in Plate Structures

Interpolation-Based Reconstruction Methods for Tomographic Imaging in 3D Positron Emission TomographyPositron Emission Tomography (PET) is considered a key diagnostic tool in neuroscience, by means of which valuable insight into the metabolism functionin vivomay be gained. Due to the underlying physical nature of PET, 3D imaging techniques in terms of a 3D measuring mode are intrinsically demanded to assure satisfying resolutions of the reconstructed images. However, incorporating additional cross-plane measurements, which are specific for the 3D measuring mode, usually imposes an excessive amount of projection data and significantly complicates the reconstruction procedure. For this reason, interpolation-based reconstruction methods deserve a thorough investigation, whose crucial parts are the interpolating processes in the 3D frequency domain. The benefit of such approaches is apparently short reconstruction duration, which can, however, only be achieved at the expense of accepting the inaccuracies associated with the interpolating process. In the present paper, two distinct approaches to the realization of the interpolating procedure are proposed and analyzed. The first one refers to a direct approach based on linear averaging (inverse distance weighting), and the second one refers to an indirect approach based on two-dimensional convolution (gridding method). In particular, attention is paid to two aspects of the gridding method. The first aspect is the choice of the two-dimensional convolution function applied, and the second one is the correct discretization of the underlying continuous convolution. In this respect, the geometrical structure named the Voronoi diagram and its computational construction are considered. At the end, results of performed simulation studies are presented and discussed.

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A reconstruction-based mode separation method of Lamb wave for damage detection in plate structures

Smart Materials and Structures ◽

10.1088/1361-665x/ab0299 ◽

2019 ◽

Vol 28 (3) ◽

pp. 035033 ◽

Cited By ~ 2

Author(s):

Kai Zhou ◽

Yuebin Zheng ◽

Jiaqi Zhang ◽

Xinsheng Xu ◽

Shuyi Ma ◽

...

Keyword(s):

Damage Detection ◽

Lamb Wave ◽

Separation Method ◽

Plate Structures ◽

Mode Separation

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Investigation of Crystallographic Aspects of Subsurface Damage Induced by Grinding Using Micro-Raman Tomographic Imaging

JSME 2020 Conference on Leading Edge Manufacturing/Materials and Processing ◽

10.1115/lemp2020-8514 ◽

2020 ◽

Author(s):

Teppei Onuki ◽

Shunsuke Kan ◽

Wangpiao Lin ◽

Wentong Lu ◽

Kousuke Hasegawa ◽

...

Keyword(s):

Strain Field ◽

Elastic Strain ◽

Evaluation Method ◽

Imaging Techniques ◽

Peak Position ◽

Tomographic Imaging ◽

Tomographic Images ◽

Laser Raman ◽

Brittle Mode ◽

Elastic Strain Field

Abstract The objective of this study is to propose and develop an evaluation method on the process damages of sapphire wafers, regarding crystallographic aspects of the damages by use of tomographic imaging techniques with laser Raman microscopy (called as micro Raman tomographic imaging: mRTI). In this paper, tomographic images with the peak width and the shift of the peak position were observed with mRTI, on c-plane cut sapphire wafers along a-plane, with micro fractures induced by brittle-mode grinding. Fractures along m-plane from the surface to 2–7 microns-depth, and fractures along r-plane from the bottom end of the m-plane fracture to 14 microns-depth, subsequently induced elastic strain field around the fractures, could be visualized without destructions of the wafers.

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Lamb Wave Tomography and Its Application in Pipe Erosion/Corrosion Monitoring

Research in Nondestructive Evaluation ◽

10.1080/09349849609409599 ◽

1996 ◽

Vol 8 (4) ◽

pp. 189-197 ◽

Cited By ~ 45

Author(s):

J. Pei ◽

M. I. Yousuf ◽

F. L. Degertekin ◽

B. V. Honein ◽

B. T. Khuri-Yakub

Keyword(s):

Lamb Wave ◽

Corrosion Monitoring ◽

Erosion Corrosion ◽

Wave Tomography

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Direct structural observation of liquid molecules in single picoliter microdroplets using near-infrared Raman microprobe spectroscopy combined with laser trapping and chemical-tomographic imaging techniques

Thin Solid Films ◽

10.1016/s0040-6090(98)00917-1 ◽

1998 ◽

Vol 331 (1-2) ◽

pp. 181-188 ◽

Cited By ~ 7

Author(s):

Katsuhiro Ajito

Keyword(s):

Near Infrared ◽

Imaging Techniques ◽

Tomographic Imaging ◽

Laser Trapping ◽

Raman Microprobe

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Accurate quantification of brown adipose tissue mass by xenon-enhanced computed tomography

Proceedings of the National Academy of Sciences ◽

10.1073/pnas.1714431115 ◽

2017 ◽

Vol 115 (1) ◽

pp. 174-179 ◽

Cited By ~ 7

Author(s):

Rosa T. Branca ◽

Andrew McCallister ◽

Hong Yuan ◽

Amir Aghajanian ◽

James E. Faber ◽

...

Keyword(s):

Computed Tomography ◽

Adipose Tissue ◽

Brown Adipose Tissue ◽

Imaging Techniques ◽

Tomographic Imaging ◽

Obese Mouse ◽

Vascular Perfusion ◽

Tissue Mass ◽

Brown Adipose ◽

Enhanced Computed Tomography

Detection and quantification of brown adipose tissue (BAT) mass remains a major challenge, as current tomographic imaging techniques are either nonspecific or lack the necessary resolution to quantify BAT mass, especially in obese phenotypes, in which this tissue may be present but inactive. Here, we report quantification of BAT mass by xenon-enhanced computed tomography. We show that, during stimulation of BAT thermogenesis, the lipophilic gas xenon preferentially accumulates in BAT, leading to a radiodensity enhancement comparable to that seen in the lungs. This enhancement is mediated by a selective reduction in BAT vascular resistance, which greatly increases vascular perfusion of BAT. This enhancement enables precise identification and quantification of BAT mass not only in lean, but also in obese, mouse phenotypes, in which this tissue is invisible to conventional tomographic imaging techniques. The method is developed and validated in rodents and then applied in macaques to assess its feasibility in larger species.

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Enhancement of Lamb Wave Imaging Resolution by Step Pulse Excitation and Prewarping

Shock and Vibration ◽

10.1155/2015/185148 ◽

2015 ◽

Vol 2015 ◽

pp. 1-8 ◽

Cited By ~ 8

Author(s):

Shangchen Fu ◽

Lihua Shi ◽

Yinghui Zhou ◽

Zhikai Fu

Keyword(s):

Lamb Wave ◽

Pulse Excitation ◽

Accurate Estimation ◽

Plate Structures ◽

Localization Accuracy ◽

Narrowband Signal ◽

Wave Imaging ◽

First Arrival ◽

Imaging Resolution ◽

Peak Value

For the purpose of improving the damage localization accuracy, a prewarping technology is combined with step pulse excitation and this method is used in Lamb wave imaging of plate structures with adjacent damages. Based on the step pulse excitation, various narrowband or burst response can be derived by signal processing technology and this method provides flexibility for further prewarping approach. A narrowband signal warped with a preselected distance is then designed, and the dispersion in the response of this prewarping signal will be greatly reduced. However, in order to calculate the distance for prewarping, the first arrival needs to be estimated from the burst response. From the step-pulse response, narrowband responses at different central frequencies can be obtained, and by averaging peak-value time of their first arrivals, a more accurate estimation can be calculated. By using the prewarping method to the damage scattering signals before imaging, the imaging resolution of the delay-and-sum method can be highly enhanced. The experiment carried out in an aluminum plate with adjacent damages proves the efficiency of this method.

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