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1. Stability of soil slope in Almaty covered with steel slag under the effect of rainfall
2. Structural response of a three-story precast concrete structure subjected to local diaphragm failures in a shake table test
3. Development of engineered geopolymer composites containing low-activity fly ashes and ground granulated blast furnace slags with hybrid fibers
4. Assessment of Reactive powder concrete subjected to three different sodium sulfate Concentrations: Compressive Strength, Absorption, Porosity, Microstructure, and durability
5. Optimization of mixture parameter for physical and mechanical properties of reactive powder concrete under external sulfate attack using Taguchi method
6. Performance-based approach to characterize external sulfate attack for reactive powder concrete
7. Evaluating the Efficacy of Limestone Powder as a Partial Replacement of Ordinary Portland Cement for the Sustainable Stabilization of Sulfate-Bearing Saline Soil
8. Structural responses of energy storage pile foundations under thermal-mechanical loadings
9. Performance Evaluation and Swelling Model of Sulfate-Bearing Soft Kaolin Clay Treated with Ordinary Portland Cement and Waste Glass Powder
10. Characterizing Chronologically Aged Basic Oxygen Furnace Slags as Aggregates and Their Use in Asphalt Concrete Mix as Filler
11. Experimental study on seismic performance of unreinforced masonry walls retrofitted with low-strength engineered cementitious composites
12. Performance-Based Evaluation of Supplementary Cementitious Material Synthesized with Basic Oxygen Furnace Slag and Ground Granulated Blast Furnace Slag
13. Sustainable utilization of steel slags as road abrasives for ice melting application
14. Characterization of Mellowing Process to Control Expansion in High-Sulfate-Bearing Soil
15. Evaluation of non-autoclaved aerated concrete for energy behaviors of a residential house in Nur-Sultan, Kazakhstan
16. Use of off-astm class f fly ash and waste limestone powder in mortar mixtures containing waste glass sand
17. Synthesis and Evaluation of Geopolymer Mixtures Containing Chronologically Aged Basic Oxygen Furnace Slags
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