Yan Qin | Functional Composites | Research Excellence Award

Research Excellence Award

Yan Qin
Affiliation Wuhan University of Technology
Country China
Scopus ID 35262802300
Documents 127
Citations 2,030
h-index 21
Subject Area Functional Composites
Event International Material Scientist Awards
Yan Qin
Wuhan University of Technology, China

Yan Qin is a researcher affiliated with Wuhan University of Technology whose scientific activities focus on functional composites and advanced materials engineering. The research profile reflects sustained scholarly productivity, significant citation impact, and continued contributions to the development and characterization of composite materials. Bibliometric indicators demonstrate substantial academic influence within the field of materials science and functional composite technologies.[1]

Abstract

This academic article presents a scholarly overview of Yan Qin and the associated research profile in functional composites and advanced materials. Publication output, citation indicators, and research contributions demonstrate sustained scientific engagement and substantial academic visibility. The available bibliometric evidence supports consideration for the Research Excellence Award presented at the International Material Scientist Awards.[1]

Keywords

Functional Composites, Composite Materials, Materials Science, Advanced Materials, Structural Materials, Materials Engineering, Material Characterization, Research Impact.

Introduction

Functional composite materials have become increasingly important in modern engineering because of their enhanced mechanical, thermal, electrical, and structural properties. Research involving composite materials contributes to applications in transportation, energy, aerospace, construction, and advanced manufacturing. Scientific investigations in this area support the development of innovative materials with improved functionality and performance characteristics.[2]

Research Profile

The research profile of Yan Qin includes 127 indexed documents, 2,030 citations, and an h-index of 21. These indicators demonstrate extensive scholarly productivity and substantial academic influence within materials science and functional composite research. The citation record reflects broad recognition of the research contributions within the scientific community.[1]

  • Affiliated with Wuhan University of Technology.
  • Research specialization in functional composites.
  • One hundred twenty-seven indexed publications.
  • Citation count exceeding two thousand citations.
  • h-index value of 21.
  • Significant contribution to advanced materials research.

Research Contributions

Research activities associated with Yan Qin include studies involving composite materials, material design, structural performance, and functional properties of advanced materials. Such investigations contribute to the development of high-performance materials suitable for industrial and technological applications.[2]

  • Research involving functional composite materials.
  • Investigation of advanced material properties.
  • Material characterization and performance analysis.
  • Development of high-performance composite systems.
  • Contribution to applied materials engineering.

Publications

The publication record demonstrates extensive scientific productivity and sustained scholarly activity. The large number of indexed publications contributes to international visibility and supports knowledge dissemination in the field of functional composites and advanced materials.[1]

  1. Research articles on functional composite materials.
  2. Studies involving structural and advanced composites.
  3. Publications related to material characterization.
  4. Research addressing engineering applications of composites.

Representative literature in composite materials and advanced functional systems provides scientific context for the research area and highlights the importance of multifunctional materials in modern engineering applications.[3]

Research Impact

The citation record and h-index indicate substantial scientific influence and recognition by the academic community. The publication and citation metrics demonstrate the dissemination and utilization of research findings within materials science and composite engineering.[1]

Award Suitability

The research achievements, publication productivity, citation performance, and specialization in functional composites support consideration of Yan Qin for the Research Excellence Award. The available bibliometric indicators demonstrate sustained scientific contributions and measurable impact within the field of materials science and advanced composite technologies.[1]

Conclusion

Yan Qin has established a significant academic profile in functional composites through extensive publication activity, substantial citation impact, and contributions to materials science research. The documented scholarly achievements support recognition through the Research Excellence Award and reflect continued engagement in advanced materials and composite engineering research.[1]

References

  1. Elsevier. (n.d.). Scopus author details: Yan Qin, Author ID 35262802300. Scopus. https://www.scopus.com/authid/detail.uri?authorId=35262802300
  2. Chawla, K. K. Composite Materials: Science and Engineering. 
    https://doi.org/10.1007/978-0-387-74365-3
  3. Abandoned phenolic aerogel as a carbon source for in-situ carbothermal ceramicization of silicone rubber composites towards superior ablation resistance and thermal insulation.https://www.sciencedirect.com/science/article/abs/pii/S0141391026003174

Dr Ting Li | Composite Materials | Best Researcher Award

Dr Ting Li | Composite Materials | Best Researcher Award

Dr Ting Li, Ningbo Jiangong Engineering Group Co., Ltd. China

Dr. Ting Li, a distinguished researcher in civil engineering, specializes in fiber-reinforced polymer (FRP) materials for concrete structures exposed to fire. With a Ph.D. from Southeast University, China, and co-supervised research at EPFL, Switzerland, Dr. Li has advanced the field through innovations like basalt-phenolic FRP rebars and fire-resistant RC beams. He has authored impactful papers in journals such as Construction and Building Materials and holds patents on FRP technologies. As a project leader, he excels in team management and materials development, driving transformative contributions to structural engineering and materials science. 🧪🔥📚

Publication Profile

SCOPUS

Academic Pursuits 🎓

Dr. Ting Li has an outstanding educational background in civil engineering and structural engineering. He earned his Ph.D. from Southeast University, China (2016–2022), focusing on fiber-reinforced polymer (FRP) materials in fire-exposed concrete structures. During his Ph.D., he published six papers, received two patents, and was honored with a Jiangsu Province research innovation fund. From 2020–2021, he conducted co-supervised Ph.D. research at EPFL, Switzerland, publishing in a top journal. Dr. Li holds an M.Sc. in Structural Engineering (2013–2016) from Xi’an University of Architecture and Technology and a B.Sc. in Civil Engineering (2009–2013) from Henan University, excelling in advanced mathematics and statistics. 🎓🔬📚

Professional Experience💼

Dr. Ting Li is currently an R&D Engineer and Postdoctoral Researcher at Ningbo Construction, China (Oct. 2022 – Sep. 2024). He is actively engaged in strategic projects to explore new markets in the construction industry. His role involves conducting desk research, proposing scientific and technological topics, and developing innovative solutions. Dr. Li also conducts research on new materials using computational software and Excel, analyzing complex data sets to generate practical and optimistic application proposals. His work combines technical expertise and industry-driven innovation, contributing significantly to advancements in construction materials and technologies. 🏗️🔬📊

Contributions and Research Focus 🔬

Dr. Tian Li is an accomplished researcher specializing in structural engineering, advanced composite materials, and fire-resistant technologies for reinforced concrete (RC) structures. His expertise lies in the application of basalt-phenolic FRP (BFRP) rebars to enhance fire resistance and thermal performance in RC beams using NSM (Near Surface Mounted) techniques. He has contributed to key areas such as bond performance improvement, thermal-mechanical coupling environments, and self-sensing materials. With publications in high-impact journals like Construction and Building Materials and patents on fire-resistant technologies, Dr. Li’s research bridges innovation and sustainability in modern construction. 🏗️🔥📚.

Publication Top Notes📄✨

Bond enhancement for NSM FRP bars in concrete using different anchorage systems

Thermophysical and thermomechanical properties of basalt-phenolic FRP rebars under high temperature

Experimental study of traditional Chuan-dou frames infilled with wood panels under in-plane cyclic load

Analysis of Factors Influencing the Damping Performance of Polyurethane with Minimum Particles

Robustness analysis of dynamic properties of polyurethane damping materials based on multi-index control

Out-of-plane behavior of masonry infilled Chuan-dou timber frames

Mechanical and Damping Properties of Graphene-Modified Polyurethane-Epoxy Composites for Structures