Yakshansh Kumar | Engineering | Best Researcher Award

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Mr. Yakshansh Kumar | Engineering | Best Researcher Award

Mr. Yakshansh Kumar, Delhi Technological University, India

Yakshansh Kumar is a highly motivated researcher and academician in the field of Civil Engineering, with a specialization in Pavement-Soil Dynamics. Currently pursuing his PhD at Delhi Technological University, he focuses on dynamic response analysis of pavement-soil systems using piezo sensors. He has actively contributed to several publications and international conferences, establishing himself as a promising expert in geotechnical engineering. Passionate about advancing knowledge and fostering innovation, Yakshansh is also involved in mentoring students and advancing research projects. His dedication and commitment are evident in his academic achievements and research pursuits.

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Summary of Suitability for the “Research for Best Researcher Award”

Yakshansh Kumar is a promising and dedicated researcher with a strong academic foundation and a demonstrated commitment to advancing the field of civil and geotechnical engineering, particularly in pavement-soil dynamics. Currently pursuing a Ph.D. at Delhi Technological University, his research focus on dynamic response analysis of pavement-soil systems using piezo sensors exemplifies his innovative approach to solving complex engineering challenges. His research is not only theoretically robust but also applied, with funding from the universityโ€™s IRD and the use of experimental testing and finite element analysis in his investigations.

Kumarโ€™s publication record is impressive, with multiple articles in high-impact journals such as International Journal of Non-Linear Mechanics (SCIE, Q1) and Journal of Vibration Engineering and Technologies (SCIE, Q2). He has contributed to the scientific community with key insights on dynamic load vibrations, piezo-dynamics, and the role of machine learning in geotechnical analysis. His research has garnered attention on both national and international platforms, demonstrated by his active participation in numerous conferences, where he has won awards for best technical papers.

๐ŸŽ“ย ย Education

Yakshansh Kumar holds a PhD in Civil Engineering from Delhi Technological University (DTU), where he is conducting research on the dynamic analysis of pavement-soil systems. He earned his Master’s degree in Geotechnical Engineering from DTU, achieving a CGPA of 7.49. He completed his Bachelor’s degree in Civil Engineering at Hindu College of Engineering (affiliated with DCRUSTM) with a CGPA of 6.37. Throughout his academic career, Yakshansh has demonstrated a strong foundation in engineering principles, with a specific interest in soil dynamics and pavement systems. His rigorous research work has led to multiple scholarly contributions in well-regarded journals and international conferences.

๐Ÿ’ผย Professional Experience

Yakshansh Kumar has an extensive academic and research background. He is currently working on his PhD project, funded by the IRD-DTU, which focuses on pavement-soil dynamics using piezo sensors for experimental testing and finite element analysis. As part of his professional journey, Yakshansh has contributed to several research papers, conferences, and has collaborated with experts in geotechnical engineering. He has also participated as a reviewer in esteemed journals such as Transportation Infrastructure Geotechnology. In addition to his research, he has attended workshops and seminars, including a national seminar on Science Day and faculty development programs, showcasing his dedication to continuous learning. His involvement in teaching and research continues to shape his career path.

๐Ÿ…ย  Awards and Recognition

Yakshansh Kumar has been recognized for his outstanding contributions to research and academic excellence. He was awarded the Best Technical Paper Award for his work on “Velocity Induced Post Elastic Response of Pavements” presented at the Sustainable Infrastructure: Innovations, Opportunities, and Challenges (SIIOC 2024). In addition, his paper on “Post Elastic Response of Pavement Subjected to Moving Load” received the Best Paper Award at the International Online Conference on Energy Science (ICES 2021). His work has been published in high-impact journals such as the International Journal of Non-Linear Mechanics and Journal of Vibration Engineering and Technologies. He has also been recognized as a reviewer for journals and international conferences, reflecting his academic credibility and recognition in the field of geotechnical engineering.

๐ŸŒ Research Skills On Engineering

Yakshansh Kumar possesses strong research skills, particularly in the areas of pavement-soil dynamics, finite element analysis, and piezo-dynamics of geomaterials. His expertise lies in dynamic response analysis using experimental testing and numerical modeling. His ongoing PhD project focuses on piezo sensors and their application to pavement systems, supported by funding from IRD-DTU. Yakshansh has demonstrated his proficiency in using advanced software for computational modeling and simulations, as well as conducting real-world experimental tests. His research contributes to understanding the behavior of pavements under dynamic loads, which is vital for improving infrastructure performance. His skills are complemented by his ability to collaborate with peers, present research at conferences, and publish in well-regarded journals.

๐Ÿ“– Publication Top Notes

  • Damage evaluation in pavement-geomaterial system using finite element-scaled accelerated pavement testing

    • Authors: Y Kumar, A Trivedi, SK Shukla
    • Citation: Kumar, Y., Trivedi, A., & Shukla, S. K. (2023). Damage evaluation in pavement-geomaterial system using finite element-scaled accelerated pavement testing. Transportation Infrastructure Geotechnology, 11(3), 922-933.
    • Year: 2023

  • Damage evaluation in pavement-geomaterial system using finite element-scaled accelerated pavement testing

    • Authors: Y Kumar, A Trivedi, SK Shukla
    • Citation: Kumar, Y., Trivedi, A., & Shukla, S. K. (2024). Damage evaluation in pavement-geomaterial system using finite element-scaled accelerated pavement testing. Transportation Infrastructure Geotechnology, 11(3), 922-933.
    • Year: 2024

  • Deflections governed by the cyclic strength of rigid pavement subjected to structural vibration due to high-velocity moving loads

    • Authors: Y Kumar, A Trivedi, SK Shukla
    • Citation: Kumar, Y., Trivedi, A., & Shukla, S. K. (2024). Deflections governed by the cyclic strength of rigid pavement subjected to structural vibration due to high-velocity moving loads. Journal of Vibration Engineering & Technologies, 12(3), 3543-3562.
    • Year: 2024

  • Investigating the Influence of Frequency on Piezo-dynamics of Polyvinylidene Fluoride (PVDF) Films Embedded in Confined Geomaterials

    • Authors: Y Kumar, A Trivedi, SK Shukla
    • Citation: Kumar, Y., Trivedi, A., & Shukla, S. K. (2024). Investigating the Influence of Frequency on Piezo-dynamics of Polyvinylidene Fluoride (PVDF) Films Embedded in Confined Geomaterials. Journal of Vibration Engineering & Technologies, 1-20.
    • Year: 2024

  • Application of machine learning technique for dynamic analysis of confined geomaterial subjected to vibratory load

    • Authors: A Boban, P Pateriya, Y Kumar, K Gaur, A Trivedi
    • Citation: Boban, A., Pateriya, P., Kumar, Y., Gaur, K., & Trivedi, A. (2024). Application of machine learning technique for dynamic analysis of confined geomaterial subjected to vibratory load. AI in Civil Engineering, 3(1), 2.
    • Year: 2024

  • Influence of Jute Reinforcement on the Stiffness Capacity of Cohesionless Pavement Geomaterials

    • Authors: P Kumar, Y Kumar, A Trivedi
    • Citation: Kumar, P., Kumar, Y., & Trivedi, A. (2023). Influence of Jute Reinforcement on the Stiffness Capacity of Cohesionless Pavement Geomaterials. International Conference on Interdisciplinary Approaches in Civil Engineering.
    • Year: 2023

  • Numerical and Experimental Investigation of a Confined Geomaterial Subjected to Vibratory Load

    • Authors: A Boban, Y Kumar, A Trivedi
    • Citation: Boban, A., Kumar, Y., & Trivedi, A. (2023). Numerical and Experimental Investigation of a Confined Geomaterial Subjected to Vibratory Load. International Conference on Sustainable Infrastructure: Innovation.
    • Year: 2023

  • Impact of Moving Load Vibrations on Pavement Damage Supported by Flow-Controlled Geomaterials

    • Authors: Y Kumar, A Trivedi, SK Shukla
    • Citation: Kumar, Y., Trivedi, A., & Shukla, S. K. (2024). Impact of Moving Load Vibrations on Pavement Damage Supported by Flow-Controlled Geomaterials. Available at SSRN 5002829.
    • Year: 2024

Chang Gao | Engineering | Best Researcher Award

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Mrs. Chang Gao | Engineering | Best Researcher Award

๐Ÿ‘คย Mrs. Chang Gao, Changsha University of Science and Technology, China

Chang Gao is an accomplished researcher and educator based in China, specializing in civil engineering and material sciences. With a strong academic foundation, he obtained his Bachelorโ€™s degree in Civil Engineering from Hunan University and further advanced his expertise with a Ph.D. in Civil Engineering from the same institution. His innovative research spans high-performance concrete materials, eco-friendly construction methods, and machine learning applications in engineering. Currently, Chang serves as an Assistant Professor in the Intelligent Construction Department at Changsha University of Science and Technology while also pursuing postdoctoral research at Southeast University and Hunan University. His exceptional contributions to academia and industry have been recognized through prestigious awards, including the Third Prize of the Science and Technology Award by the China Circular Economy Association. Changโ€™s dedication to sustainable practices and cutting-edge research underscores his impact on the field of engineering.

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๐ŸŒŸย Summary of Suitability for the “Research for Best Researcher Award”

Dr. Chang Gaoโ€™s impressive academic and professional accomplishments establish him as a strong candidate for the “Research for Best Researcher Award.” His expertise lies in Civil Engineering, with a particular focus on innovative and eco-friendly concrete materials, shrinkage and creep behavior, and machine learning applications in construction materials. His contributions are evident through his impactful research, as highlighted in numerous peer-reviewed publications in reputable journals such as the Journal of Building Engineering, Construction and Building Materials, and the Journal of Materials Research and Technology.

Dr. Gaoโ€™s multidisciplinary approach, blending traditional civil engineering with advanced technologies like machine learning, sets him apart as a forward-thinking researcher. His work on recycled aggregate concrete and nanoparticles demonstrates a commitment to sustainable engineering solutions, addressing critical global challenges like resource efficiency and environmental impact.

๐ŸŽ“ย Education

Chang Gao has a robust educational background in civil engineering, beginning with a Bachelor’s degree from Hunan University in 2014. Demonstrating exceptional academic performance, he pursued a Ph.D. in Civil Engineering at the same university, graduating in 2019. During his Ph.D. journey, Changโ€™s research focused on eco-friendly construction materials and the integration of machine learning in structural analysis. To broaden his expertise, he completed another doctoral program in Aeronautics and Astronautics Engineering at Purdue University in 2019, showcasing his interdisciplinary capabilities. This diverse academic experience not only honed his technical skills but also instilled a profound understanding of sustainable and advanced construction practices. With a passion for innovation and academic excellence, Chang has built a solid foundation to lead pioneering research and mentor the next generation of engineers.

๐Ÿ’ผย ย Professional Experience

Chang Gaoโ€™s professional journey reflects his dedication to advancing engineering practices. Since September 2022, he has served as an Assistant Professor in the Intelligent Construction Department of Civil Engineering at Changsha University of Science and Technology, where he actively contributes to academia through teaching and research. Simultaneously, Chang is a postdoctoral researcher at Southeast University, specializing in high-performance concrete materials, shrinkage and creep analysis, and the application of machine learning in construction engineering. Previously, he conducted postdoctoral research at Hunan University from December 2019 to September 2022, focusing on eco-friendly concrete and composite material improvements. Changโ€™s professional accomplishments are underpinned by his innovative approach, collaborative mindset, and dedication to sustainable construction solutions. His extensive experience bridges academia and industry, making him a prominent figure in civil engineering.

๐Ÿ…ย Awards and Recognitions

Chang Gaoโ€™s exemplary contributions to engineering have earned him multiple accolades. He was honored with the Third Prize in the Science and Technology Award from the China Circular Economy Association, recognizing his innovative research in sustainable materials. Additionally, he received funding from the Youth Program of the National Natural Science Foundation of China (Grant No. 52308233, 2023) and the Youth Program of the Hunan Province Natural Science Foundation of China (Grant No. 2022JJ40062, 2022). These awards highlight Changโ€™s commitment to advancing eco-friendly construction practices and integrating cutting-edge technologies into civil engineering. His achievements underscore his leadership and innovation in the field, inspiring peers and students alike to pursue excellence in engineering research and sustainable development.

๐ŸŒ ย Research Skills On Engineering

Chang Gao possesses advanced research skills in civil engineering and materials science, with a focus on sustainable and high-performance construction materials. His expertise includes the development of eco-friendly concrete materials, composite improvements, and shrinkage and creep analysis. He is proficient in leveraging machine learning techniques to evaluate the mechanical properties and performance of recycled aggregate concrete, demonstrating his ability to integrate technology into engineering research. Changโ€™s work also explores nanotechnology applications in material modification, further enhancing the durability and efficiency of construction materials. His interdisciplinary approach combines practical problem-solving with theoretical rigor, enabling him to produce innovative solutions for modern engineering challenges. Changโ€™s research skills are complemented by his strong analytical capabilities and collaborative mindset, making him a leader in advancing sustainable construction practices.

๐Ÿ“– Publication Top Notes

  • Simulation and numerical analysis of the seismic performance of the quick repaired seismic-damaged RC frame
    • Authors: Chang Gao, Liang Huang, Lei Wang, Qiang Sun, Yin Li
    • Journal: Soil Dynamics and Earthquake Engineering
    • Year: 2025
    • DOI: 10.1016/j.soildyn.2024.109083
  • Creep behavior evaluation of recycled aggregate concrete using machine learning technology
    • Authors: Chang Gao, Chuyu Luo, Bin Zhang, Zhangli Hu, Jinhui Tang, Lei Wang, Jiaping Liu
    • Journal: Journal of Building Engineering
    • Year: 2024
    • DOI: 10.1016/j.jobe.2024.111538
  • Axial compressive behavior of steel reinforced GGBS-RFBP-FA ternary composite geopolymer recycled fireclay brick aggregates concrete columns
    • Authors: Yin Li, Liang Huang, Chang Gao, Yiqun Qu, Xiaofeng Luo, Bodong Lv, Zhijun Chen
    • Journal: Structures
    • Year: 2024
    • DOI: 10.1016/j.istruc.2024.105913
  • Workability and mechanical properties of GGBS-RFBP-FA ternary composite geopolymer concrete with recycled aggregates containing recycled fireclay brick aggregates
    • Authors: Yin Li, Liang Huang, Chang Gao, Zhijie Mao, Mingzhu Qin
    • Journal: Construction and Building Materials
    • Year: 2023
    • DOI: 10.1016/j.conbuildmat.2023.131450
  • Jute Fiber-Reinforced Polymer Tube-Confined Sisal Fiber-Reinforced Recycled Aggregate Concrete Waste
    • Authors: Chang Gao, Qiu Ni Fu, Liang Huang, Libo Yan, Guangming Gu
    • Journal: Polymers
    • Year: 2022
    • DOI: 10.3390/polym14061260
  • Compressive performance of fiber reinforced polymer encased recycled concrete with nanoparticles
    • Authors: Chang Gao, Liang Huang, Libo Yan, Bohumil Kasal, Wengui Li, Ruoyu Jin, Yutong Wang, Yin Li, Peng Deng
    • Journal: Journal of Materials Research and Technology
    • Year: 2021
    • DOI: 10.1016/j.jmrt.2021.07.159
  • Flax FRP tube and steel spiral dual-confined recycled aggregate concrete: Experimental and analytical studies
    • Authors: Liang Huang, Jinmei Liang, Chang Gao, Libo Yan
    • Journal: Construction and Building Materials
    • Year: 2021
    • DOI: 10.1016/j.conbuildmat.2021.124023
  • Mechanical properties of recycled aggregate concrete modified by nano-particles
    • Authors: Chang Gao, Liang Huang, Libo Yan, Ruoyu Jin, Haoze Chen
    • Journal: Construction and Building Materials
    • Year: 2020
    • DOI: 10.1016/j.conbuildmat.2020.118030
  • Strength and ductility improvement of recycled aggregate concrete by polyester FRP-PVC tube confinement
    • Authors: Chang Gao, Liang Huang, Libo Yan, Ruoyu Jin, Bohumil Kasal
    • Journal: Composites Part B: Engineering
    • Year: 2019
    • DOI: 10.1016/j.compositesb.2018.10.102
  • Experimental and numerical studies of CFRP tube and steel spiral dual-confined concrete composite columns under axial impact loading
    • Authors: Liang Huang, Chang Gao, Libo Yan, Tao Yu, Bohumil Kasal
    • Journal: Composites Part B: Engineering
    • Year: 2018
    • DOI: 10.1016/j.compositesb.2018.07.008