Assistant Professor at the International Educational Corporation (KazGASA), Faculty of Architecture.
Has teaching and research experience in architectural design, urban planning, and sustainable construction.
Author and co-author of several scientific papers and conference presentations.
Research interests include modern architectural technologies and energy-efficient building design.
EDUCATION
Master of Technical Sciences, International Educational Corporation (KazGASA), Almaty, Kazakhstan.
Specialization: Architecture and Construction.
Year of graduation: 2025.
RESEARCH, TEACHING, or OTHER INTERESTS
Engineering, Building and Construction
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Scopus Publications
Scopus Publications
Optimized Development of High-Porosity Structural and Thermal Insulation Foam Ceramics Based on Local Natural and Technogenic Raw Materials Aidana Kuanyshbay, Sayat Niyetbay, Indira Tashmukhanbetova, Ruslanzhan Sadyrov, Nurgul Amangeldi, Laura Mustafa, Akmaral Nurakhova, Ilyas Rustemov, Assel Yesbolat Ceramics, 2025 This study explores the optimization of foam ceramic materials through experimental research and mathematical modeling. The goal was to enhance mechanical strength, thermal insulation, porosity, water absorption, and density by adjusting composition and firing conditions. Regression analysis and response surface methodology were used to assess the effects of loam, fly ash content, and the firing temperature. The optimal composition of 60–65% loam, 10% fly ash, and a firing temperature of 950–1000 °C yielded foam ceramics with a bulk density of 680–700 kg/m3, a compressive strength of 3.5–4 MPa, and a thermal conductivity of 0.135–0.140 W/(m·K). Controlled porosity (70–72%) enhanced insulation while maintaining structural integrity. X-ray diffraction confirmed mullite, quartz, and cristobalite phases, with mullite improving mechanical properties. This research demonstrates the potential of optimized foam ceramics for energy-efficient construction. Mathematical modeling and experimental validation provide a pathway for developing lightweight, high-performance ceramic materials. Future work should refine sintering processes, explore new additives, and evaluate the long-term performance.
