Mr Ajad Shrestha, Global Engineering Associates, P., Ltd. Nepal
Publication profile
google scholar
Education
Ajad Shrestha holds a Master’s degree in Civil and Hydraulics Engineering from Tongji University (2021β2024) and a Bachelor’s degree in Civil Engineering from the Institute of Engineering, Thapathali Campus (2015β2019). His educational background has provided him with a solid foundation in structural engineering, which is critical for innovative research in this field.
Research Projects
Ajad has contributed to multiple significant research projects, such as studying the use of recycled polyethylene terephthalate (PET) in 3D printable mortar, investigating the flexural and shear performance of HS-ECC beams, and exploring autogenous shrinkage mitigation in high-strength engineered cementitious composites (HS-ECC). His ability to manage complex variables and deliver measurable results, like reducing shrinkage by 40%, showcases his technical expertise and problem-solving skills.
Work Experience
Ajad has substantial research experience as a Research Student at Tongji University, focusing on HS-ECC material and structural applications. He also worked as a Civil Engineer and Research Assistant at Global Engineering Associates, gaining hands-on experience in FEM analysis, bridge damage research, and structural calculations. This combination of academic and professional experience makes him a strong candidate for the Innovative Research Award.
Publications
Ajad’s contributions to scholarly publications are extensive, including papers on high-performance concrete, machine learning models, and advanced structural analysis. His research on the mechanical properties of cementitious composites and UHPC highlights his commitment to developing innovative, real-world solutions.
Research focus
The research focus of this individual is on advanced materials in civil engineering, particularly engineered cementitious composites and ultra-high-performance concrete (UHPC). Their work explores the mechanical and shrinkage properties of these materials, emphasizing the use of iron sand to develop high-strength cementitious composites. Additionally, they employ hybrid machine learning models to predict the mechanical properties of UHPC, validated through experiments. This interdisciplinary approach integrates material science, construction technology, and AI-driven predictive modeling to enhance the performance and sustainability of modern construction materials. ποΈπ¬π‘
Awards and Scholarships
Ajad has earned the Departmental Scholarship from Tongji University, a recognition based on his academic performance and research contributions. This accolade, along with his proven track record in research, reflects his dedication and potential for future innovation.
Conclusion
Based on Ajad Shresthaβs extensive research in structural engineering, innovative use of materials like recycled PET and HS-ECC, and his solid academic background, he appears to be a highly suitable candidate for the Innovative Research Award. His demonstrated ability to solve complex problems, combined with a focus on real-world applications, makes him a promising innovator in the field of civil engineering.
Publication top notes
Development of high-strength engineered cementitious composites using iron sand: Mechanical and shrinkage properties
Hybrid machine learning model to predict the mechanical properties of ultra-high-performance concrete (UHPC) with experimental validation