Waste Management research excellence is strongly represented by Dr. Zhikai Wang, a Chinese scholar specializing in solid waste utilization and sustainable mining engineering solutions. Dr. Zhikai Wang holds a Ph.D. in Mining Engineering from the University of Science & Technology Beijing, following an MEng from the same institution and a BEng from Inner Mongolia University of Science & Technology, demonstrating a continuous and rigorous academic progression. Dr. Zhikai Wang’s professional and research experience is deeply rooted in nationally funded projects, including multiple National Natural Science Foundation of China grants, where he has contributed to fundamental research on particle rheology, green disposal of metal ore tailings, and multi-field coupling behavior in deep mining backfill systems. Dr. Zhikai Wang’s research interests focus on solid waste management, cemented backfilling mining technology, thermodynamic analysis, laboratory experimentation, and advanced numerical modeling. His research skills encompass rheological testing, consolidation behavior analysis, thermodynamic assessment, experimental design, and computational simulation for sustainable waste disposal systems. Dr. Zhikai Wang has been actively involved in high-impact national research initiatives, reflecting recognition through competitive project selection and sustained funding support. In conclusion, Dr. Zhikai Wang exemplifies a forward-looking researcher whose expertise in Waste Management and eco-friendly mining technologies contributes significantly to resource efficiency, environmental protection, and the advancement of sustainable engineering practices.
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Featured Publications
Mitigating natural aging in hemihydrate phosphogypsum with sodium tripolyphosphate: Sustaining long-term cementitious performance.
– Construction and Building Materials, 2025, 487, 142156.
Degradation of hemihydrate phosphogypsum-based backfill in underground mining: Mechanical and microstructural insights on the effects of pH and temperature of mine water.
– Process Safety and Environmental Protection, 2025, 193, 272–285.
Impact of weak interlayer characteristics on the mechanical behavior and failure modes of cemented tailings backfill: A study on thickness, strength, and dip angle.
– Engineering Failure Analysis, 2024, 165, 108795.
Effect of curing pressure on the stability of bottom cemented paste backfill under different types of barricade.
– Case Studies in Construction Materials, 2023, 18, e01732.
Effective reuse of red mud as supplementary material in cemented paste backfill: durability and environmental impact.
– Construction and Building Materials, 2022, 328, 127002.