Fenglan Kuang | Construction Materials | Best Researcher Award

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Dr Fenglan Kuang | Construction Materials | Best Researcher Award

Professor, Xiangtan University, China

Fenglan Kuang is a dedicated researcher specializing in the mechanical behavior and design of new materials. She holds a Ph.D. and M.S. from Xiangtan University, with extensive expertise in dynamic impact mechanics and microstructure property control of heterogeneous materials. Her work is marked by numerous contributions to high-impact journals, showcasing advancements in material design, including rubberized geopolymer mortars and advanced semiconductor technologies.

PROFESSIONAL PROFILE

Orcid

Scopus

STRENGTHS FOR THE AWARD

  1. Educational Excellence:
    Fenglan Kuang completed her Ph.D. and Master’s degrees at Xiangtan University, focusing on the mechanical behavior and design of new materials. This strong academic foundation aligns well with her research in material science.
  2. Diverse Research Areas:
    Her expertise in dynamic impact mechanical behavior, microstructure property control of heterogeneous materials, and material design reflects a deep understanding of high-demand scientific fields.
  3. Significant Research Contributions:
    • She has published extensively in high-impact journals, including:
      • Surfaces and Interfaces (2024) on high-performance ultrathin solution-processed SnO2 thin-film transistors.
      • Construction and Building Materials and Journal of Building Engineering on rubberized geopolymer mortar, showcasing expertise in sustainable construction materials.
      • Nuclear Instruments and Methods in Physics Research, A for her work on detector modeling and simulations.
    • Her research outputs demonstrate innovation and relevance to contemporary scientific challenges.
  4. Interdisciplinary Approach:
    Her work spans multiple disciplines, including materials science, mechanical engineering, and computational modeling, highlighting her ability to integrate knowledge for impactful solutions.
  5. Problem-Solving with Advanced Tools:
    Fenglan’s application of machine learning (e.g., back-propagation neural networks) for modeling composite geopolymers reflects her commitment to leveraging modern tools for research advancements.

AREAS FOR IMPROVEMENT

  1. Broader Collaboration:
    While her work involves multiple contributors, engaging in larger international collaborations could further amplify her research impact and visibility.
  2. Application-Oriented Research:
    Emphasizing real-world applications of her research findings, especially in industrial settings, could strengthen her profile.
  3. Outreach and Recognition:
    Presenting at more international conferences and securing leadership roles in scientific forums would help in establishing her as a global thought leader.

EDUCATION

Fenglan Kuang earned her Ph.D. in Mechanical Behavior and Design of New Materials from Xiangtan University (2019–2023). She also completed her M.S. in the same field at Xiangtan University (2017–2019), demonstrating a strong focus on innovative material applications. Her academic foundation emphasizes interdisciplinary approaches to understanding and improving material mechanics.

EXPERIENCE

Dr. Kuang currently serves at Liming Vocational University, where she applies her expertise in material mechanics to education and research. Her career highlights include significant contributions to the understanding of heterogeneous material dynamics and their real-world applications.

AWARDS AND HONORS

Fenglan Kuang has been recognized for her outstanding academic and research contributions. Her accolades include awards for innovative research in material mechanics and high-performance geopolymers.

RESEARCH FOCUS

Her research revolves around dynamic impact mechanical behavior and the microstructure property control of heterogeneous materials. She explores advanced applications such as rubberized geopolymer mortars and high-temperature performance of innovative composites.

PUBLICATION TOP NOTES

  • 📘 High-performance ultrathin solution-processed SnO₂ top-gate thin-film transistors by constructing high-quality dielectric/channel interface
  • 📗 DEM study on the effect of pore characteristics on single particle crushing behavior of porous particles
  • 📘 Modeling the single particle crushing behavior by random discrete element method
  • 📗 Experimental study on high-temperature performance of rubberized geopolymer mortar
  • 📘 Experimental study on preparation and properties of low content rubberized geopolymer mortar
  • 📗 Application of backpropagation neural network to the modeling of slump and compressive strength of composite geopolymers
  • 📘 Systematic modeling and simulations with analytical solutions of electric and weighting fields of 2D-Planar-Electrode and 3D-Trench-Electrode detectors
  • 📗 Simulations of electrical properties of cylindrical 3D-trench electrical Si detectors under different radiation fluences and MIP incident position

CONCLUSION

Fenglan Kuang is a strong candidate for the Best Researcher Award due to her outstanding educational background, interdisciplinary research contributions, and impactful publications. Her work on cutting-edge topics like heterogeneous materials and sustainable construction has significant societal and industrial relevance. With minor improvements in global collaborations and outreach, her profile can reach new heights, making her an exemplary researcher worthy of this recognition.

Xuhao Wang | Green High-Performance Concrete Materials | Best Researcher Award

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Prof Xuhao Wang | Green High-Performance Concrete Materials | Best Researcher Award

Associate Director of the Airport Engineering Department, Chang’an University, China

Dr. Xuhao Wang is a distinguished scholar and engineer specializing in road and airport engineering, materials science, and sustainable infrastructure. He earned his Bachelor’s, Master’s, and Doctoral degrees from Iowa State University, USA, and is a Registered Engineer-in-Training in Iowa. Dr. Wang is currently the Associate Director of the Airport Engineering Department at Chang’an University and the Deputy Director of the International Cooperative Joint Laboratory for Sustainable Road Transportation Infrastructure. He has published over 50 SCI-indexed papers and contributed to American Association of State Highway and Transportation Officials (AASHTO) standards. His innovative research has garnered numerous awards, including the National Teaching Achievement Prize and the Provincial Science and Technology Achievement Prize.

PROFILE

Scopus

STRENGTHS FOR THE AWARD

  1. Academic and Professional Excellence:
    • Earned a Doctor of Engineering and completed postdoctoral research, reflecting a strong foundation in both academic learning and applied research.
    • Registered Engineer-in-Training in Iowa, showcasing recognized professional competence.
    • Held prestigious roles, including Associate Director of the Airport Engineering Department at Chang’an University and Deputy Director of the International Cooperative Joint Laboratory.
  2. Research Contributions:
    • Authored over 50 SCI-indexed papers with high impact, including more than 30 as first or corresponding author, in top-tier journals like Cement and Concrete Composites and Construction and Building Materials.
    • Over 700 citations in Web of Science (WOS), with an h-index of 16, indicating sustained influence in the field.
    • Research spans critical areas like road and airport engineering, materials science, and the degradation mechanisms of concrete in extreme conditions.
  3. Recognition and Impact:
    • Contributed to compiling standards for AASHTO, highlighting practical impact on the industry.
    • Received the second prize for National Teaching Achievement and the first prize for Provincial Science and Technology Achievement.
    • Collaborated internationally and participated in interdisciplinary research, fostering global connections in transportation infrastructure.
  4. Scientific Leadership:
    • Played a vital role in advancing sustainable development in road transportation infrastructure.
    • Guided and collaborated with a wide network of professionals and researchers, as evidenced by over 130 co-authors.

AREAS FOR IMPROVEMENTS

Diversification of Impact Metrics:

    • While citation metrics are strong, expanding collaborations across non-English publications and global projects could further enhance global recognition.
  2. Funding and Grants:
    • Securing and leading more awarded research grants could underscore leadership in resource mobilization.
  3. Outreach and Applications:
    • Increasing participation in international conferences, workshops, and public outreach programs could broaden visibility and demonstrate applied impact to a broader audience.

EDUCATION 

Dr. Wang received his Bachelor’s, Master’s, and Ph.D. degrees in Civil Engineering from Iowa State University, USA, where he focused on pavement materials and sustainable infrastructure. He also completed a postdoctoral fellowship at the National Concrete Research Center for Road Engineering, USA. His advanced education laid a strong foundation for his interdisciplinary research in road and airport engineering.

EXPERIENCE 

From 2014 to 2018, Dr. Wang served as an Assistant Professor at Iowa State University and a Researcher at the National Concrete Research Center for Road Engineering. Since 2018, he has held key roles at Chang’an University, advancing sustainable road engineering and fostering international collaborations. He was also appointed as an Associate Researcher at Qinghai University’s Sanjiangyuan Research Institute in 2017.

AWARDS AND HONORS 

Dr. Wang’s achievements include the second prize for National Teaching Achievement and the first prize for Provincial Science and Technology Achievement. He was selected for the Shaanxi Provincial Talent Program in 2018, recognizing his impactful contributions to sustainable infrastructure research.

RESEARCH FOCUS 

Dr. Wang’s research emphasizes the interdisciplinary study of road and airport engineering, pavement materials, and sustainable infrastructure. His projects explore innovative materials, multi-field coupling damage mechanisms, and thermophysical properties of pavements.

PUBLICATION TOP NOTES

  • Development of Practical Approaches to Quantify Pavement Thermophysical Properties 🌍
  • Research Progress on Multi-Field Coupling Damage Mechanism of Concrete in Alpine Regions 🏔️
  • Image-based Method for Evaluating Changes in Aggregate Materials 📸
  • Rheological and Toughening Behavior of Basalt Fiber Sprayed Cementitious Composites 🧪
  • Pavement Foundation Support and Drainage Evaluations 🚧
  • Increase in Concrete Air Content due to Excessive Internal Vibration 💨
  • Rheological Analysis of Tuff Manufactured Sand Concrete 🏗️
  • Fracture Behavior of Basalt Fiber Reinforced Asphalt Concrete 🛣️
  • Effect of Basalt Fiber Addition on Cement Concrete: A Focused Review 📖

CONCLUSION

Xuhao Wang’s accomplishments in road and airport engineering, combined with his significant contributions to materials science and interdisciplinary research, position him as a strong candidate for the Best Researcher Award. His innovative approach to practical problems, outstanding publication record, and leadership roles underline his qualifications. With continued emphasis on global collaborations and grant acquisition, his future contributions will likely set new benchmarks in the field.