Properties of Energy Effective Concrete Based on Artificial Granulated Aggregate

Botsman, L.N.; Strokova, Valeria V.; Ogurtsova, Y.N.

doi:10.4028/www.scientific.net/MSF.945.244

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Optimization of Temperatures of Hashing Asphaltic Concrete Mixes Taking into Account the Structural Type of Bitumen
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Porous Structure Formation of Aerated Concrete with Variational Properties
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Properties of Composite Gypsum Binders Depending on Multicomponent Mineral Additives
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Properties of Energy Effective Concrete Based on Artificial Granulated Aggregate
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Research of Durability and Structure of the Heavy Concrete Modified by Polymeric Impregnation in the Frigid Climate
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Scientific and Practical Bases of a Method of Reception of Thin-Layer Heat-Insulating Coverings
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HomeMaterials Science ForumFarEastСon - Materials and ConstructionProperties of Energy Effective Concrete Based on...

Properties of Energy Effective Concrete Based on Artificial Granulated Aggregate

Abstract:

The paper deals with change patterns of heat-efficient concrete depending on the content of artificial granulated aggregate and water. The obtained results allow analyzing the quantity and degree of influence of each factor on physical-mechanical properties of concrete and defining its structure.

Info:

Periodical:

Materials Science Forum (Volume 945)

Main Theme:

FarEastСon - Materials and Construction

Edited by:

Dr. Denis Solovev

Pages:

244-249

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.945.244

Citation:

L.N. Botsman et al., "Properties of Energy Effective Concrete Based on Artificial Granulated Aggregate", Materials Science Forum, Vol. 945, pp. 244-249, 2019

Online since:

February 2019

Authors:

L.N. Botsman *, Valeria V. Strokova, Y.N. Ogurtsova

Keywords:

Artificial Granulated Aggregate, Density, Heat Conductivity, Heat-Efficient Concrete, Porosity, Rational Composition, Strength, Water Absorption

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References

[1] Ivanov I.A., Light concretes based on artificial porous aggregates, M. Stroyizdat. (1993).

[2] Lesovik V.S., Suleymanova L.A., Kara K.A., Energy efficient gas concretes based on composite bonding agents for monolithic construction, Journal of higher educational institutions. Construction. 3 (2012) 10-20.

[3] Volodchenko A.N., Strokova V.V., Features of structural and heat-insulating cell concrete technology on the basis of nonconventional raw materials, Bulletin of Belgorod State Technological University named after V.G. Shukhov. 1 (2017) 138-143.

DOI: https://doi.org/10.12737/24193

[4] Lesovik R.V., Ageeva M.S., Lesovik G.A., Bogusevich G.G., Shapovalov S.M., Sopin D.M., Increase in efficiency of coarse-pored expanded-clay concrete due to composite bonding agents from various technogenic raw materials, Bulletin of Belgorod State Technological University named after V.G. Shukhov. 11 (2016) 58-62.

DOI: https://doi.org/10.12737/22545

[5] Botsman L.N., Strokova V.V., Ageeva M.S. New generation heat-efficient concrete, Saarbrucken. (2015).

[6] Suleymanova L.A., Lesovik V.S., Kara K.A., Malyukova M.V., Suleymanov K.A. Energy-efficient concretes for green construction, Research Journal of Applied Sciences. 9 (12) (2014) 1087-1090.

[7] Strokova V.V., Construction light concrete on the basis of active granulated aggregates / V.V. Strokova, L.N. Solovyova, V.I. Mospan, A.P. Grinev // Construction materials, M. 10 (2009) 23-25.

[8] Strokova V.V., Botsman L.N., Ogurtsova Y.N., Impact of epicrystallization modifying on characteristics of cement rock and concrete, International Journal of Applied Engineering Research. 10 (24) (2015) 45169-45175.

[9] Kozhukhova N.I., Danakin D.N., Stabilizing additive as an optimization method of pore structure of lightweight composites on the basis of geopolymeric bonding agents, Construction Materials. 5 (2017) 33-35.

[10] Strokova V.V., Ogurtsova Yu.N., Botsman L.N., Influence of active component characteristics on the degree of impregnation of fine-grained concrete during epicrystallization modifying, Bulletin of Belgorod State Technological University named after V.G. Shukhov. 6 (2015) 97-101.

DOI: https://doi.org/10.12737/22317

[11] Ogurtsova Y., Strokova V., Zhernovsky I., Maksakov A., Kozhukhova M., Sobolev K., Тhe efficiency of SIO2 based materials in granulated artificial aggregates, Materials Research Society Symposium Proceedings 22. (2014) 117-122.

DOI: https://doi.org/10.1557/opl.2014.767

[12] Solovyova L.N., Hodykin E.I., Mospan A.V., Prospects of silica-containing raw materials to obtain light concrete granulated aggregates, Bulletin of Belgorod State Technological University named after V.G. Shukhov. 1 (2008) 9-11.

[13] Strokova V.V., Mospan A.V., Solovyova L.N., Maksakov A.V., Production of granulated aggregates for concrete, utility patent RUS 2433975. (2010).

[14] Bondar A.G., Experimental design in chemical technology. Kiev: Vishcha Shkola. (1976).

[15] Strokova V.V., Vorontsov V.M., Mospan A.V., Maksakov A.V., Construction cell wall materials with reduced heat conductivity on the basis of active granulated aggregates, Bulletin of Belgorod State Technological University named after V.G. Shukhov. 1 (2010) 42-46.

DOI: https://doi.org/10.31659/0585-430x-2018-763-9-25-31

[16] Strokova V.V., Zhernovsky I.V., Ogurtsova Yu.N., Maksakov A.V., Design features of construction composites on the basis of granulated nanostructuring aggregates, Construction Materials. 2 (2013) 16-19.

Paper TitlePages

Modeling of Chloride Penetration in Surface Treated Concrete

Authors: In Seok Yoon

Abstract: The surface treatment system is one of the best options to extend the service life of marine concrete in terms of cost effectiveness versus durability performance. In order to establish rational maintenance strategies for surface treated concrete structures, however, it is necessary to define how to quantify and how to optimize the performance of the surface treatment system. The solution could be obtained from the prediction of chloride in surface treated concrete. In this study, theoretical solution to predict the behavior of chloride diffusion in surface treated concrete is constructed.

765

Exploration on Feasibility of Preparing Cement Clinker with Artificial Aggregate Concrete

Authors: Jin Bang Wang, Zong Hui Zhou, Dong Yu Xu

Abstract: Combining with the utilization of waste, an new idea of using the waste to prepare high-strength artificial aggregates was put forward in this paper. The concrete was also prepared by using these aggregates. The demolished concrete could be recovered and used as cement raw meal to produce new cement clinker. In this study, the feasibility of making cement clinker with this kind of demolished concrete was studied. The concrete aggregates composed of steel slag, blast furnace slag, coal gangue and fly ash were prepared. The concrete was prepared using these aggregates with the water-cement ratio of 0.45, 0.50 and 0.55 respectively. The compressive strength of the concrete in 28 days is 52.8MPa, 46.4.2MPa and 42.6MPa, respectively, higher than that of ordinary concrete. In accordance with the ratio of cement raw meal, the cement clinker is produced by adding appropriate limestone, clay and other correction materials. After hydrated for 3 days, 7 days and 28 days, the cement paste compressive strength is 47.1 MPa, 59.8 MPa, 75.6 MPa, respectively, which reach the requirements of ordinary 42.5 Portland cement.

906

Influence of Nano-SiO₂ and Nano-CaCO₃ on the Mechanical Properties of Concrete with Different Strength Grades

Authors: Miao Zhou Huang, Tao Meng, Xiao Qian Qian, Jin Jian Zhang

Abstract: The flow ability, mechanical properties and microstructure of concrete with different strength grades affected by nano-SiO₂ and nano-CaCO₃ was studied. The experiment results showed that the strength of concrete at early age was increased by adding the nano-materials if the strength grade of concrete was not high. But the strength at the age of 28 days was not affected a lot by adding these nano-materials. On the other hand, it was not useful to the strength if the strength grade of concrete was high.

480

Experimental Research on the Fracture Properties of Roller Compacted Steel Fiber Recycled Concrete

Authors: Yan Dong Jia, Zheng Wei Zhou, Yan Dong Qu, Ao Shuang Tian

Abstract: Comparative experiments on the ordinary steel fiber recycled concrete (SFRC) and roller compacted SFRC were carried out to research the fracture properties of roller compacted SFRC. The results show that compressive strength, fracture toughness and fracture energy of roller compacted SFRC increase with the increase of fiber volume fraction. Compressive strength increase with the increase of recycled aggregate replacement rate and fracture toughness decrease, however, Crack tip opening displacement has little changes and fracture energy features fluctuation with the replacement ratio of recycled coarse aggregates increasing. The rolled formed layers have significant influence on the fracture properties of SFRC. The fracture toughness of roller compacted SFRC is generally lower than ordinary SFRC and compressive strength is higher than ordinary steel fiber concrete for the same aggregate replacement ratio and fiber volume fraction. Fracture energy of roller compacted SFRC is higher than ordinary SFRC for the higher steel fiber volume ratio.

135

Experimental Research on Tensile Strength of Specified Density Steel Fiber Concrete

Authors: Yan Kun Zhang, Xiao Hu Li, Pan Zhang

Abstract: Based on the experiment, the splitting tensile strength and axial tensile strength of specified density steel fiber concrete are studied. The influence of type of steel fiber, volume content of the fiber and substitution ratio of lightweight aggregate is analyzed. The relationship between splitting tensile strength and axial tensile strength of specified density steel fiber concrete is suggested.

330