Svitlana Davydivna Lapovska scite author profile

Svitlana Davydivna Lapovska

5Publications

10Citation Statements Received

4Citation Statements Given

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Affiliations

Kyiv National University of Construction and Architecture

Publications

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Design of the composition of alkali activated portland cement using mineral additives of technogenic origin

Schroeyers

Petropavlovskyi

Kovalchuk

et al. 2018

EEJET

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Робота охоплює результати розробки складів цементу і технології виробництва для поширених цементних систем «портландцементний клінкермінеральні добавки-лужний активатор-водоредикуюча добавка», що містять більше 60 % за масою мінеральних добавок. Добавки обрано з групи: доменний гранульований шлак, золи теплових електростанцій (зола виносу та відвальні золи) та червоний шлам (відходи глиноземного виробництва). Актуальність роботи пов'язана із необхідністю покращення цілої низки показників, що обмежують широке застосування традиційних високонаповнених відходами цементів (шлакопортландцементу, зокрема ранньої міцності та строків тужавлення). Розроблено основні принципи конструкційної побудови цементних складів та показана технологія виробництва. Встановлено, що з точки зору вимог існуючих українських та європейських стандартів, а саме EN 197-1, розроблені цементи не тільки не поступаються цементам EN: CEM I, CEM II, CEM III за властивостями, але й перевершують за міцністю. Розроблені склади цементів, що містять портландцементний клінкер, не більше ніж 40 % за масою відповідають вимогам стандарту EN згідно класам за міцністю на стиск (у віці 28 діб) 32,5N-32,5R; 42,5R-52,5R. В деяких випадках вміст супутніх продукті промисловості у складі цементу може сягати 95 % за масою. Досліджено вплив лужних компонентів на процеси структуроутворення штучного каменю лужного цементу на різних рівнях. Встановлено, що підвищення лужності середовища цементу обумовлює зниження основності фазового складу новоутворень цементу на макрорівні. Використання лужного активатора сприяє збільшенню загальної пористості штучного каменю, яка здатна знижуватись протягом часу експлуатації Ключові слова: лужний цемент, композиційний цемент, супутні продукти, утилізація відходів, червоний шлам, лужна активація

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Evaluation of the frost resistance of concrete in real operating conditions

Lapovska

Krasnianskyi

Klapchenko

et al. 2020

IOP Conf. Ser.: Mater. Sci. Eng.

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The article proposes a method for evaluating the frost resistance of concrete at actual operating temperatures, using measurement results at temperatures that are regulated by current standards. Frost resistance was evaluated by determining the amount of water freezing at different temperatures, based on the measured adsorption isobars and the obtained relationship between the freezing temperature of water in concrete pores and relative humidity. A comparison of the calculated values of the frost resistance of concrete with those got based on direct measurements showed the adequacy of the calculation model. To get information about the frost resistance of concrete during unilateral freezing, a conductometric method was used to determine the kinetics of moisture diffusion and ice formation. It is shown that the use of this method allows one to establish the propagation speed of the ice formation and water diffusion front and the corresponding freezing depth of concrete samples depending on their capillary-porous structure and initial storage conditions. In general, the studies conducted allowed us to get a more reliable picture of the behaviour of concrete under alternating temperature load than is provided for by current regulatory documents.

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Optimization of the composition of hydrophobized cellular concrete according to its moisture-transporting and water-holding characteristics

Lapovska

Klapchenko

Krasnianskyi

et al. 2020

IOP Conf. Ser.: Mater. Sci. Eng.

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The article is devoted to the study of the possibility of obtaining information about frost resistance and strength of concrete based on the analysis of its moisture-transporting and equilibrium water-holding properties. The dependences of the moisture diffusion coefficient, equilibrium moisture content at various values of relative humidity and porosity of autoclaved cellular concrete specimens on the concentration of water-repellent additive were studied. A comparison of the results of these measurements with the data on frost resistance, got by the direct method according to the current standards, have been made. It is shown, that moisture-transporting and water-holding characteristics can be used to assign concrete compositions optimal in frost resistance and strength. The mechanisms of the influence of water repellent on the frost resistance at its various concentrations are considered. It has been established that the composition of cellular concrete containing 2% water-repellent additive is optimal.

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On the Question of the Application of Basalt Microfiber for Reinforcement of Thermal Insulation AAC

Lapovska¹,

Demchenko²,

Kovalchuk

et al. 2020

KEM

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The article describes the first exploratory studies on the reinforcement of heat-insulating autoclaved aerated concrete with a basalt microfiber. The aim of the work is to obtain autoclaved aerated concrete of reduced density with improved tensile and bending characteristics. The first results obtained using basalt microfiber for reinforcing cellular concrete with a density of 150 kg/m3 are analyzed.

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Influence of ANO3 and ANO3·nH2O Nitrates on the Deformation Properties of Aluminosilicate Adhesives for Wood Products and Structures

Guzii

Romaniuk²,

Lapovska³

et al. 2021

MSF

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As a result of the research, the deformation properties of aluminosilicate adhesives modified with nitrate salts and intended for gluing wooden products and structures made of pine, beech and oak wood at different stages of their hardening were determined. Considering that pine is the most common wood in the manufacture of products and structures, then in order to reduce the numerical values of the elastic modulus in glued materials, it is advisable to add ammonium, lithium and sodium nitrates in an amount of 0.5%, potassium nitrate in an amount of 1% into the composition of an aluminosilicate adhesive. which will ensure the approximation of the elastic modulus values to the values of the unmodified aluminosilicate adhesive and will significantly affect the water resistance of the glue joint and the depth of penetration of the adhesive into the wood structure. For gluing beech wood products to reduce the elasticity modulus, it is advisable to introduce 0.5% ammonium and potassium nitrates and 1% lithium and sodium nitrates, which will reduce the numerical values of the elastic modulus in glued materials by 1.18 and 1.53 times compared with the values of the elastic modulus of the unmodified aluminosilicate adhesive. For gluing oak wood products to reduce the elasticity modulus, it is advisable to introduce 0.5% potassium nitrate and 1.5% sodium nitrate, which will reduce the numerical values of the elastic modulus in glued materials by 1.4 and 2.83 times compared to the values modulus of elasticity of unmodified aluminosilicate adhesive.

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