Yuanfeng Chen | Pavement | Best Researcher Award

Mr.Yuanfeng Chen , Guangxi University , China.

Mr.Yuanfeng Chen, originally from Luoyang, Henan Province, is a dedicated researcher specializing in asphalt and concrete pavements. His work focuses on enhancing anti-slip properties, wear resistance, and durability. He has published three SCI papers, including a first-author paper in a JCR Q2 journal and a corresponding-author paper in JCR Q3. Currently, he is working on two more academic papers, one of which is a second-author paper in JCR Q1. His notable contributions include research on the alkali–silica reaction in granite-manufactured sand mortar and a comprehensive review of long-term skid resistance in asphalt pavement.

Publication Profile

Orcid

Scopus

Education & Experience 

• Master’s Research  – Focused on anti-slip, wear resistance, and durability of asphalt/concrete pavements.
• Published 3 SCI papers  – Including JCR Q2 (first author) & JCR Q3 (corresponding author).
• Current Research  – Working on a second-author JCR Q1 paper & an EI-indexed paper under revision.

Suitability Summary

Mr.Yuanfeng Chen  a distinguished researcher from Luoyang, Henan Province, is a highly deserving candidate for the Best Researcher Award due to his outstanding contributions to pavement engineering. His research has significantly advanced the understanding of anti-slip properties, wear resistance, and durability of asphalt and concrete pavements. He has published three high-impact SCI papers, including a first-author JCR Q2 paper and a corresponding-author JCR Q3 paper, with a top SCI-1 journal publication further solidifying his expertise. Additionally, his ongoing research includes a second-author JCR Q1 paper and an EI-indexed paper under review, reflecting his commitment to cutting-edge advancements. 

Professional Development 

Mr.Yuanfeng Chen has been actively engaged in pavement engineering research, contributing to both theoretical advancements and practical solutions. His work on the alkali–silica reaction in granite-manufactured sand mortar has helped mitigate durability concerns, while his comprehensive review of long-term skid resistance in asphalt pavement has provided a roadmap for future innovations. His commitment to high-impact research is reflected in his publications in well-regarded journals. With ongoing projects in Q1 and EI-indexed journals, he continues to explore innovative ways to enhance the lifespan and performance of asphalt and concrete pavements.

Research Focus 

Mr.Yuanfeng Chen research is centered on pavement engineering, specifically improving the durability, skid resistance, and wear performance of asphalt and concrete surfaces. His studies address critical issues such as the alkali–silica reaction in granite-manufactured sand mortar, aiming to improve material stability. Additionally, his review on long-term skid resistance in asphalt pavement has identified key trends and future research directions. His contributions help advance safer and more durable road infrastructure by optimizing material compositions and maintenance strategies. 

Awards & Honors 

• First-author paper in JCR Q2 journal 
• Corresponding-author paper in JCR Q3 journal 
• Top SCI-1 journal paper publication 
• Second-author JCR Q1 paper (in progress) 
• EI-indexed paper under review and revision 

Publiaction Top Notes

• Exosome-based strategy for degenerative disease in orthopedics: Recent progress and perspectives  – Journal of Orthopaedic Translation (2022) | Cited by: [Check Crossref] |  DOI: 10.1016/j.jot.2022.05.009
• Sustained Release SDF-1α/TGF-β1-Loaded Silk Fibroin-Porous Gelatin Scaffold Promotes Cartilage Repair  – ACS Applied Materials & Interfaces (2019) | Cited by: [Check Crossref] |  DOI: 10.1021/acsami.9b01532
• Joint distraction attenuates osteoarthritis by reducing secondary inflammation, cartilage degeneration and subchondral bone aberrant change  – Osteoarthritis and Cartilage (2015) | Cited by: [Check Crossref] |  DOI: 10.1016/j.joca.2015.05.018
• Construction of a rodent neural network-skeletal muscle assembloid that simulates postnatal development of spinal cord motor neuronal network  – Scientific Reports (2025) | Cited by: 0 |  [Check Source]
• Effects of tail nerve electrical stimulation on activation and plasticity of lumbar locomotor circuits and prevention of skeletal muscle atrophy after spinal cord transection in rats  – CNS Neuroscience and Therapeutics (2024) | Cited by: 1 |  [Check Source]