А И Нагмутдинова scite author profile

А И Нагмутдинова

5Publications

0Citation Statements Received

115Citation Statements Given

How they've been cited

How they cite others

111

Affiliations

University of Bologna, Kazan State Technological University

Publications

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Investigation of the First Sorption Cycle of White Portland Cement by 1H NMR

et al. 2021

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This work is focused on the effects of drying/re-saturation cycles on the structure and components of White Portland Cement (WPC) samples. In particular, WPC of 0.5 water-to-cement ratio was studied by 1H Nuclear Magnetic Resonance (NMR) Relaxometry. A number of NMR sequences and different data processing methods were applied. Short (14 days of re-saturation) and long (6 months for the whole cycle) sorption cycles were investigated, using two drying methods: oven drying and drying under controlled relative humidity. The evolution during drying/re-saturation processes of interlayer space, gel pores, and bigger pores was followed by both the transverse relaxation times and the intensities of the nuclear magnetization. As a result of drying, reversible and irreversible changes in the pore structure, especially concerning the smaller porosity (interlayer and gel pores), were seen. Likewise, 1H signals in the crystalline phases of the cement were investigated by the standard Quadrature Echo method and by a more informative analysis based and a proper acquisition and processing of the longitudinal relaxation data. This analysis allowed the signal separation of 1H nuclei with higher and lower mobility (“solid” components). The NMR signal from this last component was analyzed on the basis of the Pake-Doublet theory in the time domain and two components were clearly detected, and assigned to 1H nuclei of crystalline water in Ettringite and OH groups in Portlandite. Reversible changes of the solid components of the cement samples were observed. This is a new method to deeply investigate the changes of solid components during sorption cycles.

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Creation of relief coatings on the surface of silicate materials in the plasma of radio-frequency induction discharge at low pressure

Trofimov

Voznesensky

Мифтахов

et al. 2017

J. Phys.: Conf. Ser.

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MUPen2DTool: A new Matlab Tool for 2D Nuclear Magnetic Resonance relaxation data inversion

Bortolotti¹,

Brizi²,

Нагмутдинова³

et al. 2022

SoftwareX

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Radio-frequency Induction plasma modification effects of disperse systems based on mineral glass

Мифтахов

Voznesensky

Нагмутдинова

et al. 2017

J. Phys.: Conf. Ser.

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MUPen2DTool: a Matlab Tool for 2D Nuclear Magnetic Resonance relaxation data inversion

Bortolotti¹,

Brizi²,

Landi³

et al. 2022

Preprint

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Accurate and efficient analysis of materials properties from Nuclear Magnetic Resonance (NMR) relaxation data requires robust and efficient inversion procedures. Despite the great variety of applications requiring to process two-dimensional NMR data (2DNMR), a few software tools are freely available. The aim of this paper is to present MUPen2DTool an open-source MATLAB based software tool for 2DNMR data inversion. The user can choose among several types of NMR experiments, and the software provides codes that can be used and extended easily. Furthermore, a MATLAB interface makes it easier to include users own data. The practical use is demonstrated in the reported examples of both synthetic and real NMR data.

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