Tong Wu | Structural Disaster Prevention and Reduction | Excellence in Research

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Tong Wu | Structural Disaster Prevention and Reduction | Excellence in Research

Vice director, Heilongjiang University, China

Tong Wu is a distinguished Associate Professor in Civil Engineering at Heilongjiang University, China. Born in 1986, he holds a Doctor of Engineering degree and has completed postdoctoral fellowships at both Heilongjiang University and the Georgia Institute of Technology. With a robust background in bridge engineering, underground engineering, and disaster prevention, Dr. Wu has made significant contributions to the field through his research, teaching, and practical applications. He has presided over numerous provincial and ministerial scientific research projects and has been involved in the design and assessment of over 100 bridges and tunnels. Dr. Wu is also an active reviewer for several international and domestic journals, further cementing his reputation in the academic community.

Professional Profile

Scopus

Education πŸŽ“

Dr. Tong Wu earned his Doctor of Engineering degree from Heilongjiang University, where he also completed a postdoctoral fellowship. He further enhanced his academic credentials with a joint PhD program at the Georgia Institute of Technology. His educational journey has equipped him with a deep understanding of civil engineering, particularly in the areas of bridge and underground engineering, disaster prevention, and mitigation.

Experience πŸ’Ό

Dr. Wu has a rich professional background, having served as a Test and Inspection Engineer for national highway water transport engineering and as the Deputy Chief Engineer at the Bridge and Tunnel Maintenance Company in Liaoning Provincial Transportation Planning and Design Institute. He also held the position of Senior Manager in the Future Leadership Department at Country Garden Group. Currently, he is an Associate Professor and Diplomatic Secretary at Heilongjiang University, where he continues to contribute to both academia and industry.

Awards and Honors πŸ†

Dr. Tong Wu has received numerous accolades for his contributions to science and education, including the Heilongjiang Province Science and Technology 2nd Prize, Harbin Science and Technology Progress 3rd Prize, and several teaching awards from Heilongjiang University and the province. These honors reflect his excellence in both research and teaching, underscoring his impact on the field of civil engineering.

Research Focus πŸ”

Dr. Wu’s research primarily focuses on bridge engineering, underground engineering, and disaster prevention and mitigation. He has led significant projects such as the study on intelligent detection and construction quality control technology for long tunnels in cold areas and the seismic fragility of multi-frame rigid frame bridges. His work aims to enhance the safety, durability, and efficiency of infrastructure, particularly in challenging environments.

Publication Top Notes πŸ“š

  1. Simulation study on damage behavior of a shallow-buried Foundation bridge under combined action of flood scouring and heavy vehicle load 🌊🚚
  2. Study on scour simulation and boundary condition conversion technology for a shallow foundation bridgeΒ πŸ—οΈπŸ”¬
  3. Seismic vulnerability evolution of large cantilever cap bridges due to material degradationΒ πŸŒ‰πŸ“‰
  4. Study on Construction Optimization Method of Tunnel Crossing Fault Fracture ZoneΒ πŸš‡βš™οΈ
  5. Seismic Fragility of a Multi-Frame Box-Girder Bridge Influenced by Seismic Excitation Angles and Column Height LayoutsΒ πŸŒπŸ“
  6. Elaborate Modeling and Fragility Assessment of a Multiframe PC Box-Girder Bridge with Intermediate Hinges in CaliforniaΒ πŸŒ‰πŸ“
  7. Study and Analysis for Seismic Response of Hinge in Frame-Style Curved Girder BridgeΒ πŸ”„πŸ“Š
  8. Analysis of Seismic Damage to Multiple-Frame Style Curved Girder BridgesΒ πŸŒ‰πŸ“‰
  9. Seismic Damage Study of Asymmetric Continuous Rigid Frame Bridge Based on Nonlinear Time History AnalysisΒ β³πŸ“ˆ

Conclusion 🎯

Dr. Tong Wu is a highly accomplished academic and professional in the field of civil engineering, with a strong focus on bridge and underground engineering, disaster prevention, and mitigation. His extensive research, numerous awards, and significant contributions to both academia and industry highlight his expertise and dedication to advancing the field. Through his innovative projects and publications, Dr. Wu continues to make a profound impact on the safety and efficiency of infrastructure 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

Orcid

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“‰