S.V. Vasyunina scite author profile

S.V. Vasyunina

3Publications

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Bryansk State Engineering and Technological Academy, Bryansk State University

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Influence of Organic and Mineral Additives Based on Wollastonite on the Properties and Structure of Construction Ceramics

Лукутцова¹,

Пыкин²,

Pykin

et al. 2017

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Лукутцова Н.П., д-р техн. наук, проф., Васюнина С.В., канд. техн. наук, доц., Пыкин А.А., канд. техн. наук, доц., Момот В.О., студент, Пехенько Д.А., студент Брянский государственный инженерно-технологический университет ВЛИЯНИЕ ОРГАНОМИНЕРАЛЬНОЙ ДОБАВКИ НА ОСНОВЕ ВОЛЛАСТОНИТА НА СВОЙСТВА И СТРУКТУРУ СТРОИТЕЛЬНОЙ КЕРАМИКИ natluk58@mail.ru Представлены результаты исследования средней плотности, прочности на сжатие, коэффициента теплопроводности, водопоглощения, морозостойкости, структуры и пористости образцов строительной керамики с использованием органоминеральной добавки, получаемой смешиванием промышленного волластонита с суперпластификатором С-3. Методом математического планирования эксперимента определены эффективное количество добавки (1 % от массы глины), оптимальное содержание воды (42,5 %) в формовочной смеси и температура обжига (1000 °С) керамических образцов. Данными электронной микроскопии и азотной порометрии установлено, что добавка приводит к перераспределению пористости керамической матрицы в сторону снижения количества опасных и резервных пор на 40-43 %. Это способствует повышению прочности на сжатие (в 1,5 раза) и морозостойкости (от 50 до 75 циклов), а также снижению водопоглощения (в 1,2 раза) керамических образцов.Ключевые слова: строительная керамика, органоминеральная добавка, волластонит, прочность, морозостойкость, структура, пористость. Информация об авторах Лукутцова Наталья Петровна, доктор технических наук, профессор, заведующий кафедрой производства строительных конструкций. Брянский государственный инженерно-технологический университет.

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Effect of Colloidal Silicon Dioxide on the Properties of Building Ceramics

Vasyunina

Лукутцова

Momot

2020

MSF

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The paper presents the results of the researches on improving the physical-mechanical and thermophysical properties (average density, strength and thermal conductivity) of ceramic stone with colloidal silicon dioxide, with and without the mineral thinning additive of silica sand. In the course of the study, the most optimal amount of colloidal silicon dioxide for ceramic stone samples is determined. The dependence of strength, average density and thermal conductivity coefficient on the amount of the modifier and thinner is established. The graphic dependences are constructed by the method of extreme modelling on the basis of Scilab engineering environment. It is ascertained that the application of colloidal silicon dioxide can improve the physical-mechanical and thermophysical properties of ceramic stone. The results of the studies on ceramic stone modified with silica sand and colloidal silicon dioxide were better than without the sand supplement. The optimal amount of colloidal silicon dioxide in the composition of ceramic stone without a sand thinning additive is 0.2%, and 0.3% with this supplement.

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Building Ceramics with Organic-Mineral Modifiers

Vasyunina

Momot

Kondratyev

2019

MSF

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The paper presents the results of the study dealing with improving the physical and mechanical properties of building ceramics samples: mean density, compressive strength, wear resistance, impact resistance, water absorption, thermal conductivity coefficient, and frost resistance. In the study the organic-mineral additive based on industrial wollastonite with the superplasticizer S-3 was used. The most functional amount of the applied additive, as well as the optimal volume of water in the molding mixture and the firing temperature were determined with the method of experiment mathematical planning. In the course of the studies the specifics of the organic-mineral additive influence on the properties and structure of building ceramics are revealed. The findings are attested by electron microscopy data. The application of the organic-mineral additive improves the performance characteristics of building ceramics samples.

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S.V. Vasyunina

Influence of Organic and Mineral Additives Based on Wollastonite on the Properties and Structure of Construction Ceramics

Effect of Colloidal Silicon Dioxide on the Properties of Building Ceramics

Building Ceramics with Organic-Mineral Modifiers

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