Influence of Oil Slurry on the Properties of Light Aggregates Based on Loams

 

Influence of Oil Slurry on the Properties of Light Aggregates Based on Loams

  IJETT-book-cover           
  
© 2023 by IJETT Journal
Volume-71 Issue-11
Year of Publication : 2023
Author : Altynay Shinguzhieva, Nurgul Kurmaniyazova, Aliya Urazova, Nurgul Satybayeva, Karlygash Mukhanbetzhanova
DOI : 10.14445/22315381/IJETT-V71I11P227

How to Cite?

Altynay Shinguzhieva, Nurgul Kurmaniyazova, Aliya Urazova, Nurgul Satybayeva, Karlygash Mukhanbetzhanova, "Influence of Oil Slurry on the Properties of Light Aggregates Based on Loams," International Journal of Engineering Trends and Technology, vol. 71, no. 11, pp. 257-266, 2023. Crossref, https://doi.org/10.14445/22315381/IJETT-V71I11P227

Abstract
The paper presents an overview of recent studies on producing expanded clay (light aggregates) using various wastes, such as bitumen emulsions, oily waste, sewage sludge, and ash. Data on their use in reinforced concrete, expanded clay concrete, foam concrete, asphalt concrete, and even chicken feed are also provided. The results of the work show the efficiency of using waste in the production of high-quality aggregates. Various wastes in producing light aggregates are becoming relevant for research. Our work aims to use oil slurry as a corrective and bloating agent in producing light aggregates. The authors propose the following raw materials for producing light aggregates: loam, oil slurry, and fine-grained sand. The quality indicators of porous aggregates were determined by standard methods according to GOST 9758-2012. Sophisticated methods of research of raw materials and finished products were used. Compositions of ceramic combinations of aggregates and the technological parameters for producing light aggregates based on loams modified with oil slurry and fine-grained sand have been developed. The studied microstructure of the obtained material based on loam modified with oil slurry and sand allowed the conclusion that the introduction of oil slurry, which contains organic components in the form of resins, naphthenes, and paraffins, had a significant impact on the formation of the porous structure of fillers. The process of bloating of aggregates occurs due to the build-up of the liquid melt of the ceramic mass during firing when the reducing medium intensifies the process of accumulation of the liquid phase. It has been established that the oil slurry content in the composition of the developed compositions lowers the firing temperature by 50-100°C, and the sintering interval is more than 50°C. The resulting lightweight filler has high strength characteristics and low thermal conductivity.

Keywords
Expanded clay concrete, Filler, Fine-grained sand, Loam, Oil slurry, Thermal insulation.

References
[1] A.S. Ledyaikin, and O.V. Liyaskin, “Prospects for the Application of Expanded Direction in Russia,” Current issues of Architecture and Construction, Materials of the Seventeenth International Scientific and Technical Conference, pp. 196-199, 2018.
[Google Scholar] [Publisher Link]
[2] V.A. Poluboyarov et al., “Use of Technogenic Waste for the Production of Expanded Direction,” Physical and Chemical Aspects of Obtaining Materials from Natural and Technogenic Raw Materials, pp. 67-75, 2014.
[Google Scholar] [Publisher Link]
[3] M.V. Andryukova, and N.S. Yamanina, “Investigation of the Possibility of Using Oil- and Iron-Containing Wastes for the Preparation of Inbolding Additives in the Production of Expanded Dite,” Seventy-Second All-Russian Scientific and Technical Conference for Undergraduate Students, Master Students and Graduate Students of Higher Educational Institutions with International Participation, pp. 392-396, 2019.
[Google Scholar] [Publisher Link]
[4] K.Yu. Chernyshov, and A.N. Tarasov, “Improvement of Expandeddzite Production Using Ash and Industrial Waste,” Information Technologies in the Inspection of Operated Buildings and Structures, Proceedings of the 17th International Research and Practice Conference, South-Russian State Polytechnic University (NPI) named after M.I. Platov, Novocherkassk, pp. 101-103, 2017.
[Google Scholar] [Publisher Link]
[5] O.V. Bobkov, and Ya.M. Klyavlina, “Use of Sediment After Water Treatment Structures as Additives in the Production of Expanded Direction,” International Scientific and Technical Conference Dedicated to the 105th Anniversary of the Birth of Professor Alexey Filipovitch Polak "Second Polakov Readings" Ufa, pp. 94-96, 2017.
[Google Scholar] [Publisher Link]
[6] V.K. Bishimbaev et al., “Influence of Bitumen Emulsions on Improving the Properties of Expanded Direction,” High Technologies and Innovations, Electronic Collection of Papers Presented at the International Research and Practice Conference Dedicated to the 65th Anniversary of Belgorod State Technical University named after V.G. Shukhov, 2019.
[Google Scholar] [Publisher Link]
[7] Shi Ying Kwek et al., “Development of Sintered Aggregate Derived from POFA and Silt for Lightweight Concrete,” Journal of Building Engineering, vol. 49, 2022.
[CrossRef] [Google Scholar] [Publisher Link]
[8] Mohammad J. Alshannag et al., “Flexural Performance and Ductility of RC Beams made Using Natural LWA,” Case Studies in Construction Materials, vol. 16, 2022.
[CrossRef] [Google Scholar] [Publisher Link]
[9] O.V. Samokhvalov, “Formation of a Program Trajectory in the Master Device of a Multi-Dimensional System for Automatic Control of the Technological Process of Expanded Direction Fingering,” Traditions and Innovations in Construction and Architecture, Construction and Building Technologies, A Collection of Papers Presented at the 78th All-Russian Scientific and Technical Conference, 2021.
[Google Scholar] [Publisher Link]
[10] K.S. Galitskov, M.A. Nazarov, and V.A. Borisov, “Research of the Deformation of the Shaping Unit in an Auger Extruder Caused by the Extruding Pressure in Production of Expanded Clay,” IOP Conference Series: Materials Science and Engineering, vol. 1015, 2021.
[CrossRef] [Google Scholar] [Publisher Link]
[11] A.V. Yanovskaya, and Kh.V. Gerekhanov, “Features of the Examination of the Quality of Expanded Direction,” Interdisciplinarity of Science as a Factor of Innovative Development, A collection of Papers on the Results of the International Research and Practice Conference, 2018.
[Google Scholar] [Publisher Link]
[12] O.R. Abduminov, “Expanded Clay Material Ishlab Chikarishning Istikboli,” Technical Sciences: Problems and Solutions, Collection of Articles based on the Materials of the LI-LII International Scientific and Practical Conference, vol. 8-9, 2021.
[Google Scholar] [Publisher Link]
[13] A.A. Sagyndykov et al., “Physical and Mechanical Properties of Foam Concrete based on Especially Light Expanded Areamzite,” Mechanics and Technology, vol. 4, no. 66, pp. 142-149, 2019.
[Google Scholar] [Publisher Link]
[14] A.A. Soldatov et al., “Research of Thermal Stability of Asphalt Concrete, Modified by Expanded Cleared Expandings,” Bulletin of the North Caucasus Federal University, vol. 2, no. 35, pp. 85-88, 2013.
[Google Scholar] [Publisher Link]
[15] M.V. Bazylev, A.F. Zhelezko, and I.V. Shchebetok, “Waste Expanded Direction in Feeding Laying Chicks,” Belarusian Agriculture, vol. 7, pp. 65-66, 2006.
[Google Scholar] [Publisher Link]
[16] N.S. Lyubavina, and A.S. Fadeev, “Changing the Position of the Burner Torch to Ensuring Maximum Energy Efficiency of the Expanded Direction Furnace,” Traditions and Innovations in Construction and Architecture, Building Technologies, 2018.
[Google Scholar] [Publisher Link]
[17] E.E. Pavlova, A.M. Kozlova, and Yu.Yu. Yurkevich, “Improving the Method of Accounting Costs for the Production of Brick Products (Based on the Example of JSC “Plant of Wall Materials and Expanded Direction”),” Time of Science, Collection of Scientific Papers of the Ist International Scientific and Practical Conference, Limited Liability Company "SEQUOYA", pp. 229-234, 2019.
[Google Scholar] [Publisher Link]
[18] A.B. Shinguzhieva, “Technological Parameters of Production and Physical and Mechanical Properties of Expanded Clay based on NonIntumescent Clays Modified with Oil Slurry,” PhD Thesis, Kyzyl Orda, Kazakhstan, 2021.
[Publisher Link]
[19] José Manuel Moreno-Maroto et al., “Recycling of ‘alperujo’ (olive pomace) as a Key Component in the Sintering of Lightweight Aggregates,” Journal of Cleaner Production, vol. 239, 2019.
[CrossRef] [Google Scholar] [Publisher Link]
[20] William Ejuvweyerome Odiete, “Evaluating a Local Liquid Cement Retarder for Additional Use as a Dispersant for Cement Slurry in the Oil & Gas Industry,” International Journal of Recent Engineering Science, vol. 10, no. 3, pp. 57-61, 2023.
[CrossRef] [Google Scholar] [Publisher Link]