Best Researcher Award
Jinglu Li
Henan University of Technology, China
| Jinglu Li | |
|---|---|
| Affiliation | Henan University of Technology |
| Country | China |
| Scopus ID | 57372829000 |
| Documents | 12 |
| Citations | 194 |
| h-index | 8 |
| Subject Area | Civil Engineering |
| Event | Engineering Scientist Awards |
| ORCID | 0009-0004-6559-7634 |
Jinglu Li is a researcher affiliated with Henan University of Technology whose scholarly work focuses on civil engineering materials, sustainable construction technologies, self-healing concrete systems, geopolymers, and saline loess engineering. Research outputs demonstrate an emphasis on improving the durability, resilience, and environmental performance of infrastructure materials through experimental investigation and microstructural analysis. Publications in internationally recognized journals reflect continuing contributions to cementitious composites, geotechnical engineering, and construction materials science.[1]
Abstract
The research portfolio of Jinglu Li demonstrates sustained investigation into advanced construction materials designed to improve structural durability and sustainability. Primary themes include self-healing cementitious materials, geopolymer aggregates, expansive mineral capsules, and saline loess behavior under environmental loading. Experimental methodologies are combined with microstructural characterization to explain material performance and optimize engineering applications. These studies contribute to the understanding of resilient infrastructure materials while supporting environmentally responsible construction practices.[2]
Keywords
Civil Engineering, Self-Healing Concrete, Geopolymer Aggregates, Cementitious Materials, Saline Loess, Sustainable Construction, Mineral Capsules, Fly Ash, Metakaolin, Microstructure Analysis.
Introduction
Modern civil engineering increasingly depends on innovative materials capable of improving service life while reducing maintenance requirements. Jinglu Li’s research aligns with these objectives by examining self-healing mechanisms, environmentally friendly geopolymer technologies, and the engineering characteristics of problematic soils. The research integrates laboratory testing, material optimization, and performance evaluation to address practical engineering challenges.[3]
Research Profile
According to available publication metrics, Jinglu Li has authored 12 indexed publications with 194 citations and an h-index of 8. Research activities emphasize multidisciplinary collaboration involving construction materials, concrete technology, geotechnical engineering, and durability assessment. Published work appears in reputable international journals dedicated to civil engineering and materials science.[1]
Research Contributions
- Investigated self-healing concrete using composite and mineral capsule technologies.
- Studied pore evolution and collapsibility of saline loess during wetting-drying cycles.
- Developed geopolymer aggregates incorporating fly ash and metakaolin.
- Evaluated long-term durability of cementitious materials in marine environments.
Publications
- Evolution of collapsibility and pore structure in saline loess under wetting-drying cycles: A multi-scale investigation (2026).
- Performance evaluation and potential prediction of the self-healing concrete based on composite capsules (2026).
- Effect of preparation process on fly ash and metakaolin-based geopolymer aggregates (2026).
- Development optimization and performance evaluation of mineral capsules (2024).
- Effect of compound mineral capsules on self-healing cementitious materials in marine environments (2024).
Research Impact
The published research contributes to sustainable infrastructure by improving concrete durability, reducing maintenance demands, and promoting environmentally responsible construction materials. Studies involving geopolymers, expansive mineral agents, and self-healing technologies provide practical knowledge for future engineering applications, while investigations into saline loess improve understanding of challenging geotechnical conditions.[4]
Award Suitability
Based on documented scholarly output, citation metrics, and publication quality, Jinglu Li demonstrates a consistent record of research activity in civil engineering. Contributions toward sustainable construction materials, concrete durability, and geotechnical engineering align well with the objectives commonly recognized by Best Researcher Award programs that acknowledge scientific excellence, innovation, and measurable academic impact.[5]
Conclusion
Jinglu Li’s academic profile reflects meaningful contributions to construction materials engineering through studies of self-healing concrete, geopolymer technologies, and soil engineering. The combination of experimental research, publication quality, and measurable scholarly impact supports recognition within international engineering research award programs while contributing valuable knowledge to sustainable infrastructure development.
External Links
References
- Elsevier. (n.d.). Scopus author details: Jinglu Li, Author ID 57372829000.
https://www.scopus.com/authid/detail.uri?authorId=57372829000 - Li, J. (2026). Evolution of collapsibility and pore structure in saline loess under wetting-drying cycles.
https://doi.org/10.1016/j.still.2026.107350 - Li, J. (2026). Performance evaluation and potential prediction of self-healing concrete based on composite capsules.
https://doi.org/10.1016/j.cemconcomp.2026.106660 - Li, J. (2026). Preparation process of fly ash and metakaolin-based geopolymer aggregates.
https://doi.org/10.1016/j.conbuildmat.2026.145594 - Li, J. (2024). Development optimization of mineral capsules and self-healing cementitious materials.
https://doi.org/10.1016/j.jobe.2024.108825