Po-Chien Hsiao | Seismic Design of Steel Structures | Best Researcher Award

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Prof Po-Chien Hsiao | Seismic Design of Steel Structures | Best Researcher Award

Full Professor, National Taiwan University of Science and Technology, Taiwan

Po-Chien Hsiao, Ph.D., is a distinguished Professor in the Department of Civil and Construction Engineering at the National Taiwan University of Science and Technology (NTUST). With a Ph.D. in Civil and Environmental Engineering from the University of Washington, USA, he has made significant contributions to seismic engineering, steel structure design, and innovative structural systems. His research focuses on developing advanced seismic assessment methods, performance-based design, and large-scale structural testing. Dr. Hsiao has received numerous accolades for his research and teaching, including the NSTC Excellent Young Scholar Research Project Award and the Outstanding Research Award from NTUST. He is also recognized for his innovative teaching methods, particularly in problem-based learning (PBL) courses. Dr. Hsiao’s work has been widely published in top-tier journals, and he actively participates in international conferences, sharing his expertise in earthquake-resistant structural systems.

Professional Profile

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Scopus

Education πŸŽ“

Dr. Hsiao earned his Ph.D. in Civil and Environmental Engineering from the University of Washington, USA, in 2012. Prior to that, he completed his M.S. (2004) and B.S. (2002) in Civil Engineering at National Taiwan University, Taiwan. His academic journey reflects a strong foundation in structural engineering, with a focus on seismic resilience and innovative construction techniques. His doctoral research at the University of Washington laid the groundwork for his expertise in seismic performance evaluation and advanced structural systems, which he has further developed throughout his career.

Experience πŸ’Ό

Dr. Hsiao has held various academic and professional positions, including Assistant Professor at National Chung Hsing University (2016-2018) and Technical Director at Broad-Hand Enterprise Ltd. Co. (2014-2016). He also served as a JSPS Post-Doctoral Fellow at Kyoto University, Japan (2012-2014). Since 2018, he has been with NTUST, progressing from Assistant Professor to Associate Professor and now Professor. His roles have involved teaching, research, and leading projects on seismic engineering, structural testing, and performance-based design. Dr. Hsiao’s industry experience has enriched his academic work, bridging theoretical research with practical applications.

Awards and Honors πŸ†

Dr. Hsiao has received numerous awards, including the NSTC Excellent Young Scholar Research Project Award (2024-2026), the MOST Excellent Young Scholar Research Project Award (2022-2023), and the Outstanding Research Award from NTUST (2023). He has also been recognized for his innovative teaching, winning the PBL Teaching Award multiple times. His research has earned him accolades such as the Best Paper Award at the SEEBUS 2021 International Conference and the 1st Place in the National College Student Practical Project Competition (2022). These honors highlight his contributions to both academia and the field of civil engineering.

Research Focus πŸ”

Dr. Hsiao’s research focuses on seismic engineering, steel structure design, and innovative structural systems. He specializes in developing advanced seismic assessment methods, performance-based design, and large-scale structural testing. His work includes the development of naturally buckling braces, seismic strengthening methods for RC frames, and the use of ultra-high-performance concrete in structural systems. Dr. Hsiao’s research aims to enhance the resilience of structures against earthquakes, contributing to safer and more sustainable construction practices.

Publication Top Notes πŸ“š

  1. Improved Cross-sectional Configuration and Strength-curve Estimations of Naturally Buckling Braces (2025)
  2. Hysteretic modelling and strength-envelope estimation models of concrete filled steel tubular members (2025)
  3. A novel seismic strengthening method for RC frames: Precast ultra-high performance concrete braces (2023)
  4. Shaking table test of multiple-type isolation control strategies for high-rise structure based on friction pendulum (2023)
  5. Development and testing of knife-plate connected steel panel dampers (2023)
  6. Seismic upgrading of existing RC frames with displacement-restraint cable bracing (2023)
  7. Seismic performance assessments of naturally buckling braced frame building structures (2023)
  8. Diploneis serrata (Bacillariophyceae): The use of structural mechanistic analysis to resolve morphological classification and molecular identification of a new record diatom species from Kenting, Taiwan (2022)
  9. Investigation of five different low-cost locally available isolation layer materials used in sliding base isolation systems (2022)
  10. An improved first-mode-based pushover analytical procedure for assessing seismic performance of special moment resisting frame building structures (2022)
  11. Experimental investigation on the seismic performance of cored moment resisting stub columns (2021)
  12. Numerical analysis of square concrete-filled double skin steel tubular columns with rubberized concrete (2021)
  13. The effects of cross-sectional shapes on the axial performance of concrete-filled steel tube columns (2021)
  14. Nonlinear analysis of square concrete-filled double-skin steel tubular columns under axial compression (2020)
  15. Effects of Far-Field and Near-Fault Cyclic Loadings on Seismic Performance of Naturally Buckling Braces in Pairs (2020)
  16. Hysteretic Behaviour of Composite Vertical Connection Structures used in Prefabricated Shear Wall Systems (2020)
  17. Development and Testing of Cored Moment Resisting Stub Column Dampers (2020)
  18. Slenderness Effects in Naturally Buckling Braces Under Seismic Loads (2020)
  19. Effects of Hysteretic Properties of Stud-type Dampers on Seismic Performance of Steel Moment Resisting Frame Buildings (2019)
  20. Gusset Plate Connections for Naturally Buckling Braces (2017)
  21. Development and Testing of Naturally Buckling Steel Braces (2016)
  22. Investigation of concrete-filled double-skin steel tubular columns with ultra-high-strength steel (2015)
  23. Seismic Vulnerability of Older Braced Frames (2014)
  24. A Model to Simulate Special Concentrically Braced Frames Beyond Brace Fracture (2013)
  25. Evaluation of the Response Modification Coefficient and Collapse Potential of SCBFs (2013)
  26. Improved Analytical Model for Special Concentrically Braced Frames (2012)
  27. Investigation of the Seismic Response of Multi-story Braced Frames (2012)
  28. Pseudo-Dynamic Tests of A Full-Scale CFT/BRBF Frame – Part 1: Specimen Design, Experiment and Analysis (2008)
  29. Pseudo-dynamic test of a full-scale CFT/BRBF frame – Part 2: Seismic Performance of Buckling-Restrained Braces and Connections (2008)

Conclusion 🌟

Dr. Po-Chien Hsiao is a leading figure in seismic engineering and structural design, with a career marked by groundbreaking research, innovative teaching, and numerous accolades. His work has significantly advanced the field of earthquake-resistant structures, contributing to safer and more resilient infrastructure. Through his publications, awards, and international collaborations, Dr. Hsiao continues to shape the future of civil engineering, inspiring both students and professionals worldwide.

 

Pengfei Ma | Earthquake Engineering | Best Researcher Award

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Assoc. Prof. Dr. Pengfei Ma | Earthquake Engineering | Best Researcher Award

Reacher, Lanzhou Institute of Technology, China

Pengfei Ma is an Associate Professor in Structural Engineering at Lanzhou Institute of Technology, China. Born on November 2, 1991, in Gansu, he is currently working toward completing his Doctoral Degree at Xi’an University of Architecture and Technology (XAUAT), with an expected graduation date of July 2024. His research interests focus on seismic performance, masonry structures, and structural reinforcement using advanced materials. He has an impressive track record with numerous patents related to concrete structures and shear testing devices. He has received multiple academic accolades for his groundbreaking work in earthquake engineering and structural innovation. His research aims to develop cost-effective and efficient methods for retrofitting damaged buildings, especially in earthquake-prone areas.

Profile

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Education

Pengfei Ma completed his Bachelor’s Degree at Shaanxi University of Technology. He further pursued his Master’s and Doctorate at Xi’an University of Architecture and Technology (XAUAT). His academic journey is focused on Structural Engineering, with a special emphasis on the seismic performance and repair techniques for masonry structures. His doctoral research investigates advanced methodologies for reinforcing and repairing damaged buildings, particularly using ferrocement overlays and composite materials. Throughout his academic career, he has been involved in numerous research projects and has contributed significantly to enhancing the understanding of structural behavior in seismic conditions. As a highly motivated researcher, he continuously explores innovative solutions in earthquake engineering, seeking both academic and real-world applications.

Awards and Honors

Pengfei Ma’s contributions to the field of earthquake engineering have earned him significant recognition. He received the First Prize of the 2022 Xi’an University of Architecture and Technology Science and Technology Award, which is a testament to his impactful research in seismic performance and structural reinforcement. Additionally, he earned the First Prize of the 2021 Xi’an University of Architecture and Technology Doctoral Scholarship, highlighting his academic excellence and dedication. His outstanding report at the 2020 Jiangsu Province Postgraduate Smart Infrastructure Academic Innovation Forum earned him the First Prize for Excellent Report, reflecting his ability to communicate complex research in a compelling manner. These awards underscore his commitment to advancing the field of structural engineering, particularly in earthquake-resistant design and rehabilitation techniques.

Research Focus

Pengfei Ma’s primary research focus lies in the field of Earthquake Engineering, specifically the seismic performance and retrofit of masonry structures. He investigates innovative reinforcement techniques, such as grout-injected ferrocement overlays and composite materials, to improve the resilience of buildings in earthquake-prone regions. His work also explores the failure modes of unreinforced masonry (URM) structures and the bond behavior between composite materials and substrates like brick and concrete. Additionally, he is involved in developing practical applications for structural retrofitting, such as rapid repair methods for earthquake-damaged structures. His ongoing work has significant implications for enhancing the earthquake resistance of existing buildings, with a particular emphasis on cost-effective and sustainable solutions to protect both lives and property.

Publication Top Notes

  1. Experimental investigation on the in-plane seismic performance of damaged masonry walls repaired with grout-injected ferrocement overlay πŸ—οΈ
  2. Assessment of failure mode and seismic performance of damaged masonry structures retrofitted with grout-injected ferrocement overlay reinforcement (GFOR) 🧱
  3. Numerical analysis of different influencing factors on the in-plane failure mode of unreinforced masonry (URM) structures πŸ“Š
  4. Discussion on Calculation Method of Magnification Factor of Toggle-Brace-Viscous Damper πŸ”§
  5. An investigation of bond behavior between composite materials (CFRP, GWMM, KPGC) and substrates (Brick and Concrete) for strengthening existing masonry structures πŸ’ͺ
  6. Identifying damage in shear panel dampers using Gaussian curvature mode difference πŸ“‰

 

Baki Ozturk | Structural Dynamics | Best Researcher Award

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Prof. Dr Baki Ozturk | Structural Dynamics | Best Researcher Award

Prof. Dr, Hacettepe University, Turkey

Baki Ozturk is a Professor of Civil Engineering at Hacettepe University, Turkey. With over two decades of experience, his research focuses on earthquake engineering, structural dynamics, and seismic performance of buildings. He has made significant contributions to the fields of structural control, reinforced concrete, and vibration analysis, publishing extensively in these areas. Professor Ozturk holds a Ph.D. from Purdue University, USA, and has held various academic positions, including Associate Professor and Assistant Professor at Nigde University, Turkey. Throughout his career, he has collaborated on a variety of research projects related to structural vulnerability and seismic risk.

Profile

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Scopus

Strengths for the Award

Professor Baki Ozturk is an accomplished researcher with a diverse and impactful body of work. His expertise in earthquake engineering, structural dynamics, and the seismic performance of buildings has led to over 20 years of contributions in both academia and practical applications. With a strong academic background, having completed a Ph.D. at Purdue University and a M.Sc. from Middle East Technical University, his research is well-regarded globally. His work, particularly on seismic drift response, structural control systems, and reinforced concrete, has been cited extensively, reflecting its significance in the field. He has contributed to various innovative studies in structural optimization, passive damping devices, and seismic vulnerability assessments, directly influencing the safety and resilience of structures in earthquake-prone areas. His extensive publication record, including top journals, and his collaboration with international researchers further highlight his academic stature.

Areas for Improvement

While Professor Ozturk’s research focuses on critical and impactful areas in earthquake engineering, expanding his involvement in interdisciplinary studies could further enhance his work. As the field of structural engineering continues to evolve, incorporating newer technologies such as AI-driven models, machine learning for predictive analysis, or advanced materials for seismic protection could strengthen his research output. Additionally, broadening the scope of his work to include large-scale real-world testing or pilot projects could provide deeper insights into the practical applications of his findings, making them even more influential in real-world construction practices.

Education

Baki Ozturk completed his Ph.D. in Civil Engineering at Purdue University, USA (1997-2003), focusing on the seismic drift response of building structures. He holds a Master’s and Bachelor’s degree in Civil Engineering from Middle East Technical University, Turkey (1994-1997). His Ph.D. dissertation, supervised by Prof. Mete A. Sozen, explored seismic drift responses in seismically active regions. Ozturk’s academic background also includes experience in mathematics as an instructor at Purdue University during 2000-2002, strengthening his interdisciplinary approach to civil engineering problems.

Experience

Professor Ozturk has over 20 years of academic experience, beginning as an Instructor at Nigde University in 2003 and progressing to Associate Professor and Professor positions. He served at Nigde University from 2003 to 2013 before joining Hacettepe University in 2013, where he currently holds a professorship. Additionally, he has contributed to the field of mathematics as an instructor at Purdue University from 2000 to 2002. His expertise spans earthquake engineering, structural control, and reinforced concrete, impacting both academic and practical aspects of civil engineering.

Awards and Honors

Professor Ozturk has received various recognitions for his significant contributions to civil engineering research. His research work has been widely cited and continues to influence the field of structural engineering. In addition to his academic positions, Ozturk has received accolades for his work in seismic vulnerability analysis and structural optimization. He has also been involved in several international collaborations, further establishing his reputation in the global academic community. His publications and research have earned him invitations to present at prominent engineering forums.

Research Focus

Baki Ozturk’s research focuses on earthquake engineering, particularly the seismic performance of reinforced concrete structures and structural control systems. He has explored topics such as the seismic vulnerability of buildings, the role of passive dampers in multistory structures, and the optimization of viscous dampers for seismic protection. His work also includes vibration analysis, soil-structure interaction, and the development of seismic vulnerability indices for building typologies. He aims to improve the resilience of structures in seismically active areas, promoting safety and reducing earthquake-induced damage.

Publication Top Notes

  1. A European Association for the Control of Structures joint perspective. Recent studies in civil structural control across Europe πŸŒπŸ“š
  2. Transverse vibration analysis of Euler-Bernoulli beams using analytical approximate techniques πŸ“ŠπŸ“
  3. Analysis of efficiency of passive dampers in multistorey buildings πŸ’πŸ’¨
  4. Development of A Uniform Seismic Vulnerability Index Framework for Reinforced Concrete Building Typology πŸ πŸ’”
  5. Seismic drift response of building structures in seismically active and near-fault regions 🌍🏚️
  6. Optimal Design and Distribution of Viscous Dampers for Shear Building Structures under Seismic Excitations πŸ”§πŸ—οΈ
  7. Homotopy perturbation method for free vibration analysis of beams on elastic foundation πŸŒŸπŸ’‘
  8. Improved Vulnerability Index Methodology to Quantify Seismic Risk and Loss Assessment in Reinforced Concrete Buildings πŸ› οΈβš οΈ
  9. Seismic behavior of two monumental buildings in historical Cappadocia region of Turkey πŸ›οΈβ›‘οΈ
  10. Optimization of Elastic Spring Supports for Cantilever Beams πŸ—οΈπŸ”§
  11. Free vibration analysis of tapered beam-column with pinned ends embedded in Winkler-Pasternak elastic foundation πŸ”©πŸ“
  12. Exploring the effects of tuned mass dampers on the seismic performance of structures with nonlinear base isolation systems πŸŒπŸ“‰
  13. Influence of Soil-Structure Interaction on the Optimum Design of Passive Damping Devices βš–οΈπŸŒ
  14. Optimum vertical location and design of multiple tuned mass dampers under seismic excitations βš™οΈπŸ’
  15. Analytical solution for free vibration analysis of beam on elastic foundation with different support conditions πŸ”πŸ“
  16. Free vibration analysis of beam on elastic foundation by the variational iteration method πŸ“˜πŸ’‘
  17. Improvement of Building Resilience by Viscous Dampers πŸ› οΈπŸ”§
  18. A numerical approach to determine viscosity-dependent segregation in fresh concrete βš™οΈπŸ—οΈ
  19. Vibration analysis of plates with curvilinear quadrilateral domains by discrete singular convolution method πŸ§©πŸ“
  20. Optimal Damper Allocation in Shear Buildings with Tuned Mass Dampers and Viscous Dampers 🏒

Conclusion

Professor Baki Ozturk’s research in earthquake engineering, particularly regarding seismic risk and structural resilience, positions him as an outstanding candidate for the Best Researcher Award. His work has provided valuable contributions to structural design and safety, influencing both academic literature and practical applications. By continuing to expand his research focus and incorporating cutting-edge technologies, he can further enhance his contributions to the field. Therefore, based on his impressive body of work, impact, and ongoing academic leadership, Professor Ozturk is highly deserving of this recognition.