New Unconventional Additives in Concrete Technology for Expansion its Functionality

Pushkarskaya

2018

SSP

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Heat-resistant concretes have been successfully used in many heat units and building structures. Making concrete heat-resistant is possible through the development of a heat-resistant phosphate matrix, aluminophosphate binder. The compositions of high-refractory concretes on aluminophosphate binder with electrocorundum and chrome-aluminous slag have relatively high strength up to 70 MPa after heat treatment. Wastes generated as a result of technological activities of enterprises have several technical and economic advantages as industrial raw materials. After passing the production possibility frontier, the material not only has not lost its properties, but became more prepared with the position of the grain composition and growth of specific surface area, heat treatment for use in the technology of concrete and refractory concrete, in particular, as heat-resistant fillers. The methodological approach in the study of defective ceramic-bond abrasive wheels has been proposed herein. The chemical, grain and mineralogical analyses of the material after mechanical grinding allowed us to define it as an aggregate for concrete in order to give it heat-resistant properties. The obtained concrete composition has a tensile strength 2.5 times higher than conventional cement composition of concrete and thermal resistance (water, 800°C) of the composition with heat-resistant filler has increased in 5 times.

Section: Results Obtained In Experimental Studiesmentioning

confidence: 99%

Section: Relevance and Scientific Merit Of The Subjectmentioning

confidence: 99%

Methodological Approaches in Assessing the Possibility of Using Waste Electrocorundum Materials in Concrete Compositions

Pushkarskaya

2018

SSP

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Академический Вестник УралНИИпроект РААСН

“…Строительные науки / Construction Sciences З аводы железобетонных изделий работают в условиях рыночной конкуренции и вынуждены искать варианты сокращения издержек в производстве бетонной смеси и готовой продукции. Многие исследовательские задачи направлены именно на оптимизацию составов бетонных смесей при обеспечении наперед заданных характеристик готового материала [1][2][3], что обеспечивается разработкой модифицированных цементных бетонов с минеральными добавками природного, искусственного, техногенного происхождения [4][5][6][7][8][9], введением добавок-пластификаторов [10][11][12][13][14] или комплексных добавок [15][16][17][18][19][20][21][22][23], а также подбором оптимального зернового (гранулометрического) состава [24]. Одним из направлений снижения себестоимости является совершенствование составов бетонных смесей и пересмотр норм расхода материалов, что не противоречит действующим нормативным документам.…”

Section: академический вестник уралниипроект раасн 1 | 2022unclassified

Результаты Применения Взаимодополняющих Методов Оценки Экспериментального Тяжелого Бетона

Тошин¹

2021

В статье приведены опытные данные по прочностным и деформативным характеристикам экспериментального бетона, внедряемого на заводе железобетонных изделий. Исследуемый бетон отличается оптимизированным составом и пониженным расходом цемента. В ходе работы испытаны бетонные кубы и призмы, а также железобетонные балки. Сравниваемые серии образцов формировались из экспериментального и классического бетона. Проведенный комплексный многофакторный анализ показал корреляцию взаимодополняющих методов исследования при снижении показателей прочности и модуля упругости экспериментального бетона и уменьшении несущей способности и жесткости соответствующих железобетонных изгибаемых элементов. The article presents experimental data on the strength and deformation characteristics of the experimental concrete introduced at the concrete goods plant. The concrete under study is characterized by an optimized composition and reduced cement consumption. During the work, concrete cubes and prisms, as well as reinforced concrete beams, were tested. The compared series of samples were formed from experimental and classic concrete. The carried out complex multivariate analysis showed the correlation of complementary research methods with a decrease in the strength and elastic modulus of the experimental concrete and a decrease in the bearing capacity and stiffness of the corresponding reinforced concrete bending elements.

“…Portland cement modified with double superphosphate in the presence of a plasticizer was used as a binder. Preliminary tests of the developed compositions of heat-resistant compositions using high-temperature aggregates based on mechanical engineering and metallurgy wastes yielded positive results in terms of increasing compressive strength and thermal resistance of samples of heat-resistant compositions [8][9][10][11][12][13].…”

Section: Relevance and Scientific Merit Of The Subjectmentioning

confidence: 99%

Heat-Resistant Composite Materials Based on Secondary Material Resources

Gnedash

2020

SSP

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Heat-resistant properties of the cement stone are provided by both high-temperature filler and the modified matrix on the basis of the Portland cement. For production of heat-resistant compositions as high-temperature filler, it is offered to use the secondary and accompanying products of production of carbide of silicon (SiC) and production wastes of the abrasive tools on a ceramic base. Increase in heat-resistant properties of the Portland cement knitting substance is offered to be solved by introduction to the structure of a cement composition of single substituted orthophosphate of calcium. The choice as an additive to the Portland cement a single substituted orthophosphate of calcium (double superphosphate) is proved by questions of safety measures and ecology, when using ortho-phosphoric acid and its salts for giving to cement compositions heat-resistant properties. The multicomponent composition of fine-grained concrete makes it possible to operate effectively the processes of forming the structure of cement stone at all stages of the technology, and to obtain materials with the most diverse set of properties. An introduction to the structure of a composite of 5% of filler of cyclonic dust of carbide of silicon, and a replacement of quartz filler by waste of abrasive production gave the increase of the compressive strength at 12%, bending strength for 36%. The thermal firmness increased by 3 times. An introduction to the structure of heat-resistant composition of single substituted orthophosphate of calcium (double superphosphate) in a number of 0.2% of the mass of cement allowed to increase the thermal firmness of structures to 20 heat exchanges (water, 800 oС).