Tanbo Pan | Structural Reinforcement | Best Researcher Award

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Prof Tanbo Pan | Structural Reinforcement | Best Researcher Award

Professor, East China Jiaotong University, China

Tanbo Pan is a dedicated scholar and educator in Civil Engineering, specializing in sustainable concrete materials, structural durability optimization, and intelligent monitoring systems. He earned his Ph.D. in Civil Engineering from Tongji University and his Bachelor’s degree from China University of Mining and Technology. Currently, he is a faculty member at East China Jiaotong University, where he lectures on Transportation, Bridge Engineering, and Railway Bridge Engineering. With multiple peer-reviewed publications, his research primarily focuses on reinforced concrete structures, corrosion damage assessment, and acoustic emission techniques. His studies have been published in top-tier journals, highlighting advancements in composite structures and structural health monitoring. His work has received substantial citations, reflecting his impact on the field. Through his academic contributions, Pan continues to influence the development of durable, resilient, and intelligent infrastructure solutions for modern engineering challenges.

PROFESSIONAL PROFILE

Scopus

EDUCATION πŸŽ“

πŸ“ Ph.D. in Civil Engineering (2014–2024) – Tongji University
πŸ“ B.E. in Civil Engineering (2014–2018) – China University of Mining and Technology

During his academic tenure, Pan focused on advanced structural durability and sustainable materials. His doctoral research revolved around the coupled effects of corrosion and sustained loading on reinforced concrete structures, incorporating composite reinforcement systems. Throughout his studies, he actively participated in international conferences, collaborated on high-impact research projects, and contributed to scientific advancements in structural health monitoring. His education laid a strong foundation for his expertise in intelligent structural diagnostics and innovative reinforcement techniques.

WORK EXPERIENCE πŸ’Ό

πŸ“ Teacher, East China Jiaotong University (2024 – Present)
πŸ”Ή Delivers lectures on Introduction to Transportation, Bridge Engineering, and Railway Bridge Engineering.
πŸ”Ή Conducts research on sustainable concrete materials, structural durability optimization, and intelligent monitoring systems.
πŸ”Ή Engages in collaborative projects to improve infrastructure resilience and corrosion-resistant design.

His professional career blends teaching and research, contributing significantly to civil engineering innovations. His expertise in material sustainability and advanced monitoring systems bridges the gap between academia and practical engineering applications.

AWARDS & HONORS πŸ†

πŸ… Recognized as a leading researcher in reinforced concrete durability and acoustic emission techniques.
πŸ… Multiple Best Paper Awards at international conferences on structural health monitoring.
πŸ… Honored for his contributions to innovative composite reinforcement methods.
πŸ… Acknowledged for academic excellence with an h-index of 6 and over 150 citations.
πŸ… Reviewer for high-impact engineering journals, evaluating cutting-edge research.

His accolades reflect his dedication to advancing civil engineering methodologies, particularly in enhancing structural durability and sustainability.

RESEARCH FOCUS πŸ”¬

πŸ›  Sustainable Concrete Materials – Investigating eco-friendly, high-performance materials for long-term infrastructure sustainability.
πŸ›  Structural Durability Optimization – Enhancing resilience against environmental degradation and mechanical stress.
πŸ›  Intelligent Monitoring Systems – Utilizing acoustic emission techniques for real-time damage assessment and structural health monitoring.
πŸ›  Corrosion Damage & Strengthening Mechanisms – Developing novel reinforcement techniques for reinforced concrete structures.
πŸ›  Advanced Composite Structures – Exploring the potential of CFRP (Carbon Fiber Reinforced Polymers) in modern engineering applications.

His research contributes significantly to improving the safety, efficiency, and durability of civil infrastructure worldwide.

PUBLICATION TOP NOTES πŸ“–

πŸ“Œ Coupled effects of corrosion damage and sustained loading on the flexural behavior of RC beams strengthened with CFRP anchorage system – Composite Structures, 2022
πŸ“Œ Damage Pattern Recognition for Corroded Beams Strengthened by CFRP Anchorage System Based on Acoustic Emission Techniques – Construction and Building Materials, 2023
πŸ“Œ Acoustic emission-based analysis of mechanical behavior and damage evolution in corroded RC square columns – Construction and Building Materials, 2025
πŸ“Œ Effects of elevated temperature on rubber concrete: Fracture properties and mechanism analysis – Construction and Building Materials, 2025
πŸ“Œ Fractal characteristics and damage evaluation of corroded beams under four-point bending tests based on acoustic emission techniques – Measurement, 2022
πŸ“Œ Field Testing and Numerical Simulation of the Effectiveness of Trench Isolation for Reducing Vibration Due to Dynamic Compaction – Applied Sciences, 2023
πŸ“Œ Localized corrosion induced damage monitoring of large-scale RC piles using acoustic emission technique in the marine environment – Construction and Building Materials, 2020
πŸ“Œ A hybrid methodology for structural damage detection uniting FEM and 1D-CNNs: Demonstration on typical high-pile wharf – Mechanical Systems and Signal Processing, 2022
πŸ“Œ Cracking behavior of reinforced concrete beams strengthened with CFRP anchorage system under cyclic and monotonic loading – Engineering Structures, 2020
πŸ“Œ Damage Mode Identification of CFRP-Strengthened Beam Based on Acoustic Emission Technique – International Federation for Structural Concrete, 2023
πŸ“Œ Damage test and monitoring of reinforced concrete (RC) beams under four-point bending – ICITBS Conference, IEEE, 2022
πŸ“Œ Elastic Properties of the Remolded Soil During Freezing and Thawing Cycle By Bender Elements – IOP Conference Series: Earth and Environmental Science, 2019

CONCLUSION πŸ—οΈ

Tanbo Pan is an emerging expert in civil engineering, integrating structural durability, sustainable materials, and intelligent monitoring systems into his research. His contributions to corrosion damage assessment, composite strengthening techniques, and acoustic emission-based diagnostics are advancing infrastructure resilience. As a faculty member at East China Jiaotong University, he is shaping future engineers while driving innovation in sustainable and intelligent structural solutions. His extensive publications, impactful research, and academic achievements solidify his position as a key figure in modern civil engineering.

Lenganji Simwanda | Composite Structures | Young Scientist Award

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Dr Lenganji Simwanda | Composite Structures | Young Scientist Award

Postdoc, Czech Technical University in Prague, Czech Republic

Dr. Lenganji Simwanda is a dedicated researcher and academic in Civil Engineering, specializing in ultra-high-performance fibre-reinforced concrete (UHPFRC), structural reliability, and sustainable construction practices. With a Ph.D. from Stellenbosch University and extensive postdoctoral research experience, Dr. Simwanda integrates advanced machine learning and probabilistic methods to enhance structural performance and sustainability. He is an active member of the fib Commission 3 Task Group and has collaborated on cutting-edge projects, contributing to over 20 high-impact publications. His expertise spans advanced material modeling, lifecycle optimization, and the application of AI in structural engineering.

PROFESSIONAL PROFILE

Google Scholar

STRENGTHS FOR THE AWARD

  1. Extensive Academic Background: Dr. Lenganji Simwanda possesses a robust academic foundation with a Ph.D. in Civil Engineering specializing in structural reliability, alongside M.Eng and B.Eng degrees, all achieved with exceptional distinction.
  2. Research Expertise: His research spans advanced topics, including the structural reliability of ultra-high-performance fiber-reinforced concrete (UHPFRC), probabilistic modeling, and machine learning applications in structural engineering.
  3. Postdoctoral Research Fellowships: His postdoctoral engagements in esteemed institutions like Stellenbosch University, University of South Africa, and Czech Technical University highlight his ongoing contributions to the field, especially in sustainability-driven assessments of UHPC and Bayesian modeling.
  4. Publications and Citations: With over 20 peer-reviewed papers in renowned journals, his work has garnered citations, reflecting the high impact and relevance of his research.
  5. Teaching Experience: Dr. Simwanda has consistently demonstrated his commitment to academia through teaching roles at both undergraduate and postgraduate levels, showcasing his ability to mentor and inspire future engineers.
  6. Collaborative and Multidisciplinary Approach: His projects involve collaboration with international experts, particularly in integrating artificial intelligence, sustainability, and structural engineering, underscoring his versatility.
  7. Professional Contributions: As a member of the fib Commission 3 Task Group, his contributions to innovative concrete materials and existing concrete structures enhance his profile as a forward-thinking researcher.
  8. Recognition through Funded Research: His involvement in cutting-edge research projects, such as AI4FRACTURE and studies on CFDST columns, demonstrates his ability to secure and execute high-level projects.

AREAS FOR IMPROVEMENT

  1. Expanded Collaboration: While his collaborative efforts are notable, further diversification into interdisciplinary projects beyond civil engineering could enhance the scope of his contributions.
  2. Industry Partnerships: Increasing partnerships with industry stakeholders for practical applications of his research could enhance real-world impact.
  3. Outreach and Communication: Participation in more global conferences and public forums could help disseminate his findings to a broader audience.
  4. Patent Development: While his work has significant theoretical contributions, exploring patents for practical innovations could solidify his standing in the field.

EDUCATION

πŸŽ“ Ph.D. in Civil Engineering (2022) – Stellenbosch University, South Africa
Dissertation: Structural reliability of UHPFRC structures.

πŸŽ“ M.Eng in Structural Engineering (2020) – University of Zambia, Zambia
Dissertation: Finite element modeling of UHPFRC beams exposed to fire.

πŸŽ“ B.Eng in Civil & Environmental Engineering (With Distinction) (2018) – University of Zambia, Zambia
Final Year Dissertation: Cost-effective structural design in reinforced concrete using BS 8110:1997 and Eurocode 2 in Zambia.

EXPERIENCE

πŸ‘©β€πŸ”¬ Postdoctoral Fellow, Czech Technical University (2024–2025)

  • Research: Probabilistic modeling and lifecycle optimization of UHPC structures.

πŸ‘©β€πŸ”¬ Postdoctoral Fellow, University of South Africa (2023)

  • Research: Data-driven methods for CFST and CFDST columns.

πŸ‘©β€πŸ”¬ Consolidoc Fellow, Stellenbosch University (2023)

  • Research: Structural reliability of UHPFRC structures.

πŸ‘¨β€πŸ« Lecturer, University of Zambia (2023)

  • Courses: Advanced Design of RC Structures, Theory of Structures.

πŸ‘¨β€πŸ« Teaching Assistant, Stellenbosch University (2020–2023)

  • Courses: Theory of Structures, Strength of Materials.

AWARDS AND HONORS

πŸ† Best Researcher Award, Stellenbosch University (2022)
πŸ† Excellence in Research Award, University of Zambia (2020)
πŸ† Top Innovator Award, fib Commission 3 Task Group (2023)
πŸ† Outstanding Tutor Award, University of Zambia (2018)

RESEARCH FOCUS

πŸ”¬ Structural reliability of UHPFRC structures.
πŸ”¬ Sustainability-driven design using advanced concrete materials.
πŸ”¬ Lifecycle optimization frameworks integrating AI and Bayesian methods.
πŸ”¬ Data-driven methods for composite and innovative structural systems.
πŸ”¬ Probabilistic modeling of climatic actions and material behavior.

PUBLICATION TOP NOTES

  1. πŸ“˜ Structural reliability of ultra-high-performance fibre-reinforced concrete beams in flexure.
  2. πŸ“˜ Structural reliability of UHPFRC beams in shear.
  3. πŸ“˜ Numerical modeling and parametric analysis of UHPFRC beams exposed to fire.
  4. πŸ“˜ Bayesian calibration and reliability analysis of UHPFRC beams.
  5. πŸ“˜ Structural reliability of RC beams strengthened with UHPFRC tensile layers.
  6. πŸ“˜ Prediction of torque capacity in CFDST members under pure torsion via ML.
  7. πŸ“˜ Numerical study of thermal efficiency in light-gauge steel panels.
  8. πŸ“˜ ML prediction of web-crippling strength in cold-formed steel beams.
  9. πŸ“˜ Shear behavior of cold-formed stainless steel lipped channel sections.
  10. πŸ“˜ Reliability analysis of shear design provisions for cold-formed steel sections.

CONCLUSION

Dr. Lenganji Simwanda’s profound expertise in structural reliability, advanced concrete materials, and machine learning-driven solutions positions him as a highly deserving candidate for the Best Researcher Award. His ability to bridge fundamental research with practical engineering challenges and his consistent contributions to academia make him a valuable asset to the global research community. Further emphasis on industry collaboration and practical applications could elevate his already outstanding career trajectory.