Search results for "CAPILLARY ABSORPTION"

showing 3 items of 3 documents

Noise reduction in magnetic resonance images by Wavelet transforms: an application to the study of capillary water absorption in sedimentary rocks

2007

Magnetic resonance imaging (MRI) is a powerful technique to study capillary water absorption kinetics in sedimentary rocks. However, the noise in the images can limit the correct identification and the quantitative measurement of the average height reached by the wetting front inside the porous material where imbibition occurs. Therefore, denoising methods can be applied to improve the image quality for a more accurate analysis, without the disadvantages of longer acquisition times. This study attempts to improve the signal-to-noise ratio of the images acquired by MRI on a sedimentary rock (Pietra di Lecce) using a waveletbased thresholding technique. The idea is to average some slightly di…

CAPILLARY ABSORPTIONmedicine.diagnostic_testChemistryNoise reductionCapillary water absorptionBiomedical EngineeringBiophysicsWavelet transformMineralogyMagnetic resonance imagingNOISE REDUCTIONmedicineWAVELET TRANSFORMSRadiology Nuclear Medicine and imagingSedimentary rockMRI
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Water Capillary Absorption in Porous Media in Different Wettability Conditions studied by quantitative MRI and X-ray CT

2007

X-ray computed tomography (CT) and magnetic resonance imaging (MRI) have been successfully applied to study both the capillary properties of several samples of Lecce stone and the performances of treatments used for protection and conservation of historical stone artifacts

Porous media Water capillary absorption
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STUDY OF CAPILLARY ABSORPTION KINETICS BY X-RAY CT IMAGING TECHNIQUES: A SURVEY ON SEDIMENTARY ROCKS OF SICILY

2008

Sedimentary rocks are natural porous materials with a great percent of microscopic interconnected pores: they contain fluids, permitting their movement on macroscopic scale. Generally, these rocks present porosity higher then metamorphic rocks. Under certain points of view, this feature represents an advantage; on the other hand, this can constitute an obstacle for cultural heritage applications, because the porosity grade can lead to a deterioration of the lapideous monument for water capillary absorption. In this paper, CT (Computerized Tomography) image techniques are applied to capillary absorption kinetics in sedimentary rocks utilized for the Greek temples as well as baroc monuments, …

X-Ray CT imaging Cultural Heritages capillary absorptionlcsh:NX1-820lcsh:Arts in generalSettore FIS/07 - Fisica Applicata(Beni Culturali Ambientali Biol.e Medicin)
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