Łukasz Kotwica scite author profile

W artykule omówiono wyniki badań laboratoryjnych przeprowadzonych dla receptur projektowanych w celu obniżenia przepuszczalności stwardniałego zaczynu cementowego. Próbki kamieni cementowych hydratyzowały przez okres od 2 do 28 dni w warunkach otworopodobnych. Dla próbek hydratyzujących 28 dni wykonano badania opisujące ich kluczowe parametry technologiczne oraz mikrostrukturę stwardniałych zaczynów cementowych. Przeprowadzono analizę korelacyjną przepuszczalności dla gazu, porowatości i parametrów opisujących mikrostrukturę stwardniałych zaczynów cementowych. Przedstawiono zależności najbardziej wpływające na obniżenie przepuszczalności i-tym samym-na zwiększenie szczelności tworzącego się płaszcza cementowego. Słowa kluczowe: przepuszczalność, porowatość, stwardniały zaczyn cementowy, mikrostruktura, krzywa regresji, średnica progowa, ciśnienie progowe, porowatość, efekt brzegowy, powierzchnia właściwa. Correlation of permeability and parameters describing the structure of hardened cement slurries used to seal boreholes in the area of the Pomeranian Basin The article discusses the results of laboratory tests for recipes designed to reduce the permeability of hardened cement slurry. Samples of hardened cement slurries were cured from two to 28 days of hydration in borehole similar conditions. For samples cured for 28 days there were tests performed describing their crucial technological parameters and microstructure. The correlation analysis for gas permeability, porosity, and parameters describing the microstructure of the hardened cement slurries was performed. Most important factors influencing the reduction of permeability and thus improvement of tightness of cement sheath were analyzed and presented.

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Study of pozzolanic action of ground waste expanded perlite by means of thermal methods

Kotwica

Pichór

Nocuń-Wczelik

2015

J Therm Anal Calorim

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The DTA/TG and calorimetric measurements were applied in testing the effect of fine-grained waste expanded perlite as an active component of cement mixtures. The studies were performed with aim to evaluate the kinetics of cement hydration and the modification of phase composition in the presence of additive. The series of mixtures were produced with perlite 2-35 % added to cement. The acceleration of cement hydration was proved due to the pozzolanic reaction between the active amorphous fine-grained perlite. An attempt to elucidate the mechanism of cement-perlite interaction was presented, based on the results of bound water content by TG measurements.

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Enhanced autogenous self-healing of cement-based composites with mechanically activated fluidized-bed combustion fly ash

Tomczak

Jakubowski

Kotwica

2021

Construction and Building Materials

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Łukasz Kotwica

Incorporation of Al in C-A-S-H gels with various Ca/Si and Al/Si ratio: Microstructural and structural characteristics with DTA/TG, XRD, FTIR and TEM analysis

Utilization of waste expanded perlite as new effective supplementary cementitious material

Korelacja przepuszczalności i parametrów opisujących strukturę stwardniałych zaczynów cementowych stosowanych do uszczelniania otworów w rejonie Basenu Pomorskiego

Study of pozzolanic action of ground waste expanded perlite by means of thermal methods

Enhanced autogenous self-healing of cement-based composites with mechanically activated fluidized-bed combustion fly ash

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