Xiang liu | Structural reinforcement | Outstanding Contribution Award

Mr. xiang liu | Structural reinforcement | Outstanding Contribution Award 

Associate professor, Liaodong University, China

Liu Xiang is a distinguished expert in civil engineering, recognized for his outstanding contributions to the field. As a member of the “Hundred Thousand Talents” program in Liaoning Province and a Level One Cost Engineer, he has demonstrated exceptional expertise. Liu Xiang serves as a Science and Technology Commissioner for Liaoning Province and is an expert in the National Undergraduate Thesis Sampling Review Expert Database. With numerous awards for scientific papers and achievements in philosophy and social sciences, he is a leading researcher in his field.

Professional Profile

ORCID

🎓 Education

Liu Xiang’s educational background is marked by a strong foundation in civil engineering. Although specific details are not provided, his academic achievements and research experience demonstrate a solid understanding of structural engineering, materials science, and related disciplines.

👩‍🏫 Experience

Liu Xiang has extensive experience in research and academia, having hosted multiple scientific research projects and published numerous papers in core journals. He has worked on projects funded by the Liaoning Provincial Department of Education and the Liaoning Province Science and Technology Plan Joint Plan.

🏆 Awards and Honors

Liu Xiang has received multiple awards for outstanding scientific papers, including first, second, and third prizes from the Dandong Municipal Association for Science and Technology. He was also awarded the second prize for outstanding achievements in philosophy and social sciences at the 11th Dandong City Philosophy and Social Sciences Awards.

🔬 Research Interests

Liu Xiang’s research focuses on structural engineering, materials science, and cost analysis. His work explores innovative methods for strengthening and rehabilitating structures using carbon fiber-reinforced polymers (CFRP). He also investigates the economic and environmental implications of these methods.

📚Top Noted Publications

1. Test and reliability and cost analysis of bending performance of carbon fiber reinforced damaged concrete beams 📚
2. Countermeasures to promote sustainable construction and coordinated development of healthy cities: a case study of Dandong City 🌆
3. Comparison of the calculation of shear bearing capacity of two kinds of carbon fiber cloth reinforced reinforced concrete beams under three anchoring methods 🔩
4. Research on Coordinated Countermeasures for the Balanced Development and Construction of Real Estate in Dandong 🏠
5. Discussion and analysis of short-term stiffness of CFRP reinforced damaged concrete beam section 🔍
6. CFRP reinforced concrete beam distribution (rib) rate optimization and cost simulation analysis 💻
7. Research on the optimization and cost of distribution (rib) rate of CFRP reinforced concrete beams 📊
8. Discussion and analysis of the economic reinforcement rate and cost of concrete rectangular cross-section beams 💸
9. Experimental study on the bending resistance of reinforced concrete beams with carbon fiber cloth 🔬
10. Experimental study on the anchoring method of damaged reinforced concrete beams reinforced with carbon fiber cloth 🔩
11. Experimental study on anchoring the root of reinforced concrete columns with carbon fiber cloth reinforcement 🏗️
12. “A Variable Variable Fixed Sensor Instrument and Equipment” (ZL 2019 2 0630765.1) Utility Model Patent

Conclusion

Based on their impressive research record, funding, and awards, the researcher is a strong candidate for the Best Researcher Award. Their contributions to structural engineering, materials science, and urban development demonstrate their expertise and potential for further innovation. With some focus on interdisciplinary collaborations, international impact, and patent commercialization, they could further solidify their position as a leading researcher in their field.

Arman Hajiha | Retrofitting of structures | Best Researcher Award

Mr. Arman Hajiha | Retrofitting of structures | Best Researcher Award

PhD candidate,Politecnico di Torino, Italy

Arman Hajiha is a civil engineer and researcher with a strong passion for structural analysis and design. Born in Tehran, Iran, he has pursued his academic and professional career in Iran and Italy. With a solid educational background and research experience, Arman aims to contribute to the advancement of civil engineering and structural analysis. 🌉

Profile

orcid

Education🎓

Arman Hajiha holds a BSc in Civil Engineering from Islamic Azad University (2009-2014) and an MSc in Civil Engineering – Structure from Science and Culture University (2016-2018). He is currently pursuing his second MSc in Civil Engineering – Structural Analyses at Politecnico di Torino, Italy. His research focuses on composite truss joints and strengthening techniques. 📚

Experience 💼

Arman Hajiha has worked as a Structural Design Engineer at P-Delta Company (2015-2016) and as a Physics instructor at Aspiyan Group Company (2020-present). He has also been an individual trainer in Physics and Mathematics for over 10 years. Additionally, he has been involved in various research projects, including the analysis of composite truss joints and the development of strengthening techniques. 🌆

Awards & Honors  🏆

Arman Hajiha has received several awards and honors, including the Top Ranked Student in MSc and the Highest Possible Score in Thesis. He was also the Winner of the Best Calculation Handbook in the 5th Iran National Steel Bridge Competition and the Runner-up in the Most Economic Structure Design and the Most Efficient Structure Design categories. 🎉

Research Focus  🔬

Arman Hajiha’s research focus lies in the field of structural analysis and design, particularly in the analysis of composite truss joints and the development of strengthening techniques. His research aims to improve the safety and efficiency of structural systems, with a focus on innovative materials and techniques. 🌈

Publications

1. Retrofitting of a steel truss joint by creating composite connections and PTMSs (post-tensioned metal straps) 🌉
2. Steel Bridges strengthening with composite joints and Post-Tensioned Metal Strap 🌊
3. Zoning, Sampling and Trip Distribution Analysis Data-Driven Transport Planning in Madison Metropolitan Area (case study) 🚗
4. Influence of Varied Subgrade Resilient Modulus on the Structural Design of Airport Runways ✈️
5. Trip Generation and Distribution model in Transport Planning of Madison Metropolitan Area (Case Study) 🚌

Conclusion

Arman Hajiha’s impressive educational background, research experience, and practical skills make him an outstanding candidate for the Best Researcher Award. While there are areas for improvement, his strengths and achievements demonstrate his dedication to advancing knowledge and making a positive impact in his field.

Prof Philip F. Yuan | Robotic Fabrication | Best Researcher Award

Prof Philip F. Yuan | Robotic Fabrication | Best Researcher Award

Prof Philip F. Yuan , CAUP, Tongji University, China

Prof Philip F. Yuan is academic and researcher in the field of renewable energy, holds a PhD in Bio systems Engineering from Kangwon National University, South Korea. His academic journey has been marked by a profound dedication to advancing solar energy technologies, specifically in solar thermal harvesting and its integration into agricultural and architectural applications.

 

Professional Profiles:

Scopus

Yuan, Philip F.

Info:

Tongji University, Shanghai, China
56057067100

📖 Publications Top Note :

Agent-Based Principal Strips Modeling for Freeform Surfaces in Architecture
Chai, H., Orozco, L., Kannenberg, F., Menges, A., Yuan, P.F.
Nexus Network Journal, 2024, 26(2), pp. 369–396
Explores innovative modeling techniques in architecture utilizing agent-based methods.

Bioinspired Sensors and Applications in Intelligent Robots: A Review
Zhou, Y., Yan, Z., Yang, Y., Yuan, P.F., He, B.
Robotic Intelligence and Automation, 2024, 44(2), pp. 215–228
A comprehensive review of bioinspired sensor technologies and their applications in robotics.

FloatArch: A Cable-Supported, Unreinforced, and Re-Assemblable 3D-Printed Concrete Structure Designed Using Multi-Material Topology Optimization
Li, Y., Wu, H., Xie, X., Yuan, P.F., Xie, Y.M.
Additive Manufacturing, 2024, 81, 104012
Presents a pioneering design in 3D-printed concrete structures optimized for reusability and sustainability.

Structural Performance-Based 3D Concrete Printing for an Efficient Concrete Beam
Wu, H., Li, Y., Xie, X., Gao, X., Yuan, P.F.
Sustainable Development Goals Series, 2024, Part F2790, pp. 343–354
Discusses advancements in 3D printing for creating efficient concrete beams.

Research on 3D Printing Craft for Flexible Mass Customization: The Case of Chengdu Agricultural Expo Center
Gao, T., Gu, S., Zhang, L., Yuan, P.F.
Sustainable Development Goals Series, 2024, Part F2790, pp. 465–480
Examines flexible customization in 3D printing through a case study of an agricultural expo center.

Preface
Yan, C., Chai, H., Sun, T., Yuan, P.F.
Computational Design and Robotic Fabrication, 2024, Part F2072
Introduction to the latest volume focusing on computational design and robotic fabrication.

The Use of Normative Energy Calculation for Natural Ventilation Performance-Driven Urban Block Morphology Generation
Li, W., Xu, X., Makvandi, M., Sun, Z., Yuan, P.F.
Computational Design and Robotic Fabrication, 2024, Part F2072, pp. 315–328
Investigates energy-efficient urban design through computational methods.

A Parametric Approach Towards Carbon Net Zero in Agricultural Planning
Yueyang, W., Yuan, P.F.
Computational Design and Robotic Fabrication, 2024, Part F2072, pp. 305–314
Focuses on achieving carbon neutrality in agricultural planning using parametric design techniques.

ISOMORPHISM: Stylized Translations of 2D Prototype in Additive Clay Printing
Gong, L., Yuan, P.F.
Computational Design and Robotic Fabrication, 2024, Part F2072, pp. 515–525
Explores the translation of 2D designs into 3D printed clay structures.

Practical Application of Multi-Material Topology Optimization to Performance-Based Architectural Design of an Iconic Building
Li, Y., Ding, J., Zhang, Z., Yuan, P.F., Xie, Y.M.
Composite Structures, 2023, 325, 117603
Applies multi-material optimization in creating high-performance architectural designs.