Bakkara Ayagoz

@icp.kz

Faculty of Chemistry and Chemical Technology
Institute of Combustion Problems, al-Farabi Kazakh National University



           

https://researchid.co/ayagozbakkara

Home address: md. Sayaly-1, building 112, apt. 32
Almaty, Kazakhstan
tel.: (727) 267-52-12; mob. 87028984353
Date of birth: June 16, 1990
Place of birth: Zhanatas, Kazakhstan

EDUCATION

2007 -2011 bachelor's degree, Al-Farabi Kazakh National University, Almaty, Kazakhstan, Faculty of Chemistry.
2011-2013 magistracy, Al-Farabi Kazakh National University, Almaty, Kazakhstan, Faculty of Chemistry and Chemical Technology.
2013-2016 doctoral studies, Al-Farabi Kazakh National University, Almaty, Kazakhstan, Faculty of Chemistry and Chemical Technology.
2017 Doctoral dissertation defense at Al-Farabi Kazakh National University, Almaty, Kazakhstan

9

Scopus Publications

Scopus Publications

  • High-Temperature SHS Heat Insulators Based on Pre-Activated Mineral Raw Materials
    Bakhtiyar Sadykov, Ainur Khairullina, Aida Artykbayeva, Alua Maten, Anar Zhapekova, Timur Osserov, and Ayagoz Bakkara
    MDPI AG
    In this paper, the results of the technological combustion of SHS heat insulators based on mineral origins are presented. It is shown that after mechanochemical treatment of minerals—diatomite—the kinetic characteristics of the combustion process change, providing targeted formation of the phase composition, structure, and properties of the SHS composite. A positive effect of using various modifiers during the MCT of diatomite—the activation of the combustion process—was established. The selection of modifiers provides an increase in the strength of the synthesized SHS composites as a result of the formation of aluminate compounds in the synthesis products, and a decrease in thermal conductivity to 0.157 W/m*K due to the formation of the ultraporous structure of the samples.

  • Efficiency and Prospects of the Use of Mechanochemical Treatment to Obtain Innovative Composite Systems
    Ayagoz Bakkara, Bakhtiyar Sadykov, Anar Zhapekova, Timur Oserov, Aisulu Batkal, Ainur Khairullina, and Nina Mofa
    MDPI AG
    This review is devoted to the possibilities of using mechanochemical processing and to achievements in this field for obtaining materials for a wide range of purposes. The mechanochemical processing of various materials and compositions in energy-intensive grinding devices allows the production of innovative systems, ensuring the necessary complex structure and properties. A detailed analysis of the processes of mechanochemical processing in the production of designs for various purposes is given, and the latest practical results in this area are highlighted. A detailed analysis of the processes of mechanochemical processing in the production of structures for various purposes is given, as well as recent practical results in this area, such as the use of mechanochemical processing to increase the performance of aluminum and other metals used as a combustible substance in energy-intensive systems. This review also presents the prospects for the use of mechanochemical processing to obtain physiologically active drugs from plant materials, which is an effective method for creating new materials in the field of pharmaceuticals, animal husbandry, veterinary medicine, crop production, etc.


  • Preparation of silvered colloidal compositions for nanocosmetic drugs
    N.N. Mofa, A.O. Zhapekova, B.S. Sadykov, A.E. Bakkara, M.I. Tulepov, and B. Elouadi
    Institute of Combustion Problems
    The article presents the results of obtaining nanosilver aqueous suspensions by electrolysis method with variations in the quality and composition of water, the type, and quantity of modifying additives, as well as the creation of colloidal compositions consisting of silicon dioxide and nanosilver emulsion as a result of mechanochemical treatment of the system. As a modifier of silver nanoparticles, citric acid, glycerin, and ether-cellulose were used, which can form the thinnest layers on the surface of the metal particle, preventing particles from sticking together and precipitating them. It is shown that the use of modifiers in the preparation of a colloidal solution with silver particles and ultrasonic treatment of the system provide an increase and stabilization of the activated state of colloidal systems with silver nanoparticles and silicon dioxide. Obtained under the influence of ultrasonic treatment homogeneous and resistant to delamination soft gel systems containing silver and having antimicrobial activity are promising for the manufacture of drugs for cosmetic purposes.


  • Using mechanochemical treatment to obtain metal powders for energy-intensive combustible compositions. 2. Structure and reactivity of mechanically activated Al–modifier–SiО<inf>2</inf> mixtures
    N. N. Mofa, B. S. Sadykov, A. E. Bakkara, and Z. A. Mansurov
    National University of Science and Technology MISiS
    The paper presents the results obtained when studying particles of aluminum-modifier-quartz composites by different physicochemical methods after mechanochemical treatment (MCT) in a planetary centrifugal mill. Graphite (C), polyvinyl alcohol (PVA) and stearic acid (SA) were used as modifiers. To increase the dispersibility of plastic metal powders in the composition (modifier metal), MCT was carried out in the presence of quartz with its mass fraction in the composite ranging from 5 to 20 %. The most significant grinding of aluminum particles was observed with an increase in the graphite content from 5 to 20 %, and SiO2 from 5 to 10 % in the composition of aluminum-modifier-quartz composites. The particle size decreases, while the crystallite size increases with an increase in the quartz content in the composite during the Al–SA–SiO2 system MCT. Al–SA–5%SiO2 showed the maximum defectiveness of aluminum after MCT. For the Al–PVA–SiO2 composition after MCT, an increase in the particle size and, accordingly, a decrease in the specific surface were observed at sufficiently low crystallite size values. It was shown that with an increase in the quartz content in the system, the defective crystal structure of aluminum particles increases as a result of MCT. In this case, the synthesized powder material is a composite formation of aluminum and quartz particles bound by a polymer obtained from polyvinyl alcohol. As a result of Al–modifier–SiO2 mixture MCT, powder activity increases due to the accumulation and redistribution of defects in aluminum particles, as well as changes in the surface structure occurring after modifying additives penetration into the oxide layer to be destroyed. A conceptual model for the transformation of the surface layer and subgrain structure of aluminum particles as a result of MCT is presented.


  • Influence of the Type of Catalysts on the Formation of a Superhydrophobic Carbon Nanomaterial in Hydrocarbon Flames
    G. T. Smagulova, M. Nazhipkyzy, B. T. Lesbaev, A. E. Bakkara, N. G. Prikhod’ko, and Z. A. Mansurov
    Springer Science and Business Media LLC


Publications

1. Bakkara A.E., Sadykov B.S., Zhapekova A.O., Oserov T., Batkal A., Khairullina A.S. and Mofa N.N. Efficiency and prospects of the useing of mechanochemical treatment to obtain innovative composite systems // ChemEngineering 2022, 6, 90, pp. 1-17.
2. N. Mofa, A. Zhapekova, B. Sadykov, A. Bakkara, M. Tulepov, and B. Elouadi Preparation of Silvered Colloidal Compositions for Nanocosmetic Drugs, Eurasian . J.,2020, Vol. 22, No. 1, pp. 11-18. .
3. 1. Mofa N. N., Sadykov B. S., Bakkara A. E. and Mansurov Z. A. Fabrication of Metallic Powders for Energy-Intensive Combustible Compositions by Mechanochemical Treatment: 1. Peculiarities of the Structure and State of Aluminum Powder Particles Formed by Mechanochemical Treatment // Russian Journal of Non-Ferrous Metals, 2018, Vol. 59, No. 4, pp. 450–457. .
4. Mofa N. N., Sadykov B. S., Bakkara A. E. and Mansurov Z. A. Fabrication of Metal Powders for Energy-Intensive Combustible Compositions Using Mechanochemical Treatment: 2. Structure and Reactivity of Mechanically Activated Al–Modifier–SiO2 Mixtures // Russian Journal of Non-Ferrous Metals, 2019, Vol. 60, No. 6, pp. 694–703.

RESEARCH OUTPUTS (PATENTS, SOFTWARE, PUBLICATIONS, PRODUCTS)

Пaтeнт нa пoлeзную мoдeль №6132 Рecпубликa Кaзaхcтaн 04.06.2021г. зaявитeль РГП нa ПХВ «Инcтитут прoблeм гoрeния» Кoмитeтa нaуки МOН Рecпублики Кaзaхcтaн, Cпocoб пригoтoвлeния гeлeвых кoмпoзиций лeчeбнo-кocмeтичecкoгo нaзнaчeния / Н.Н. Мoфa, A.O. Жaпeкoвa, A.E. Бaккaрa.
Патент Сухая цементная смесь Мофа Н.Н., Баққара А.Е., Жапекова А.О., Садыков Б.С., Осеров Т.Б., Батқал А.Н., Хайруллина А.С.

INDUSTRY EXPERIENCE

Leading Research Fellow, Institute of Combustion Problems 2021 - present,

Senior Lecturer KazNU named after. al-Farabi - 2016 - present