Sequential Diffusion Spectra as a Tool for Studying Time-Dependent Translational Molecular Dynamics: A Cement Hydration Study

Serša, Igor

doi:10.3390/molecules25010068

Cited by 2 publications

(2 citation statements)

References 36 publications

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“…The temporal parameter ∆, also known as the diffusion time, can have a great influence on the diffusion measurement of a porous system. For a porous system with pore diameter a, the measured diffusion coefficient would be equal to the unrestricted diffusion coefficient D 0 when ∆ a 2 /6D 0 , and it would decrease and level off to D ∞ when ∆ a 2 /6D 0 , where the ratio D 0 /D ∞ is equal to the tortuosity of the porous medium [28,29]. For ∆ values between these two extremes, the measured diffusion coefficient is between D ∞ and D 0 , and its value depends on the ratio of ∆ to a 2 /6D 0 .…”

Section: Discussionmentioning

confidence: 99%

Comparing CT and MR Properties of Artificial Thrombi According to Their Composition

Viltužnik,

Kaučič,

Blinc

et al. 2023

Diagnostics

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This study aims to determine whether and to what extent the structure and composition of thrombi can be assessed using NMR and CT measurements. Seven different thrombus models, namely, six RBC thrombi with hematocrit levels (HTs) of 0%, 20%, 40%, 60%, 80% and 100% and one platelet thrombus model, were analyzed using proton NMR at 100 MHz and 400 MHz, with measurements of T1 and T2 NMR relaxation times and measurements of the apparent diffusion coefficient (ADC). In addition, the thrombus models were CT-scanned in a dual-energy mode (80 kV and 140 kV) and in a single-energy mode (80 kV) to measure their CT numbers. The results confirmed that RBC thrombi can be distinguished from platelet thrombi by using ADC and CT number measurements in all three settings, while they cannot be distinguished by using T1 and T2 measurements. All measured parameters allowed for the differentiation of RBC thrombi according to their HT values, but the best sensitivity to HT was obtained with ADC and single-energy CT measurements. The importance of this study also lies in the potential application of its results for the characterization of actual thrombi in vivo.

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Section: Discussionmentioning

confidence: 99%

Comparing CT and MR Properties of Artificial Thrombi According to Their Composition

Viltužnik,

Kaučič,

Blinc

et al. 2023

Diagnostics

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“…In recent years, many new technologies and methods are used [17][18][19][20][21][22][23][24][25][26][27][28]. The Avrami equation [10] is used in some investigations [12,17] to assess the rates of the four dominant compounds in Portland cement, C 3 S, C 2 S, C 3 A, and C 4 AF.…”

Section: A Brief Introduction Of Some Existing Hydration Modelsmentioning

confidence: 99%

A Simple Cement Hydration Model Considering the Influences of Water-to-Cement Ratio and Mineral Composition

Ma¹,

Dui²,

Jia³

et al. 2021

Computer Modeling in Engineering &Amp; Sciences

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A simple hydration model is used here by taking the composition of the cement and the initial water: cement ratio (w/c) into account explicitly. Its conceptual basis is a combination of the Avrami equation and Bentz's model based on simple spatial considerations. In this model, the Avrami equation determines the initial reaction, and Bentz's model describes the following hydration stage. The model favors engineers for it relies on one experimental parameter and has a reliable approximation in the practice.

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Sequential Diffusion Spectra as a Tool for Studying Time-Dependent Translational Molecular Dynamics: A Cement Hydration Study

Cited by 2 publications

References 36 publications

Comparing CT and MR Properties of Artificial Thrombi According to Their Composition

Comparing CT and MR Properties of Artificial Thrombi According to Their Composition

A Simple Cement Hydration Model Considering the Influences of Water-to-Cement Ratio and Mineral Composition

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