Kangming Chen | Fatigue performence of intersection joint | Best Researcher Award

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Mr. Kangming Chen |  Fatigue performence of intersection joint | Best Researcher Award

No designation at College of Civil Eng, Fuzhou University Fuzhou, China

🛠️ Dr. Chen Kangming, PhD in Engineering, is a researcher and doctoral supervisor at Fuzhou University’s School of Civil Engineering. Specializing in steel-concrete composite structures and bridge fatigue, he has led 5 vertical and 40+ horizontal projects. Dr. Chen has published over 60 academic papers, with 40+ indexed in SCI/EI, obtained 30+ patents, and received Fujian Science and Technology Progress Awards (2nd and 3rd prizes).

Profile

scopus

Education🎓

PhD in Bridge Engineering (2010–2013): Nagasaki University, Japan.Master’s in Bridge and Tunnel Engineering (2007–2010): Fuzhou University.Bachelor’s in Civil Engineering (2003–2007): Fuzhou University.

Experience👨‍🏫

Researcher, Fuzhou University (2023–present). Associate Researcher, Fuzhou University (2017–2023). Assistant Researcher, Fuzhou University (2013–2017).

Awards and Honors🏆

2020: Fujian Provincial Science and Technology Progress Award (2nd Prize) 2018: Fujian Provincial Science and Technology Progress Award (3rd Prize). 2021: National Postdoctoral Innovation Competition (4th place). 2023: Fuzhou University “Outstanding Young Teacher” Inspirational Award.

Research Focus🔬

Steel-concrete composite structures. Fatigue resistance and design of bridge structures. Durability improvement in prefabricated bridges. Optimization of steel box girders and anchorage designs.

Publication  Top Notes

Calculation method of out-of-plane elastic stability bearing capacity for concrete-filled steel tubular arch bridges with circular tube ribs

Journal: Journal of Jilin University (Engineering and Technology Edition), 2024, 54(10), pp. 2930–2940.

Co-authors: Q.-W. Huang, Q.-X. Wu, B.-C. Chen, Z.-W. Ye.

Focus: Analytical method for elastic stability in CFST arch bridges.

Simplified calculation method for suspension bridge deck system under safety limit conditions of suspender fracture

Journal: China Civil Engineering Journal, 2024, 57(10), pp. 57–70.

Co-authors: Q. Wu, J. Luo, J. Lin.

Focus: Suspension bridge deck safety under suspender failure.

Flexural behavior of composite continuous girders with concrete-filled steel tubular truss chords

Journal: Journal of Jilin University (Engineering and Technology Edition), 2024, 54(6), pp. 1665–1676.

Co-authors: H.-H. Huang, Q.-X. Wu.

Focus: Investigates bending performance in CFST girders.

Bending Performance of a Prestressed Concrete Composite Girder Bridge with Steel Truss Webs

Journal: Applied Sciences (Switzerland), 2024, 14(11), 4822.

Co-authors: W. Wang, Y. Liu.

Focus: Experimental and theoretical studies on composite girder bridges.

Fatigue performance experiment of concrete-filled steel tubular-KK joint

Journal: Journal of Traffic and Transportation Engineering, 2024, 24(1), pp. 100–116.

Co-authors: Q.-X. Wu, J.-P. Luo, Y.-L. Yang, C.-Y. Miao, S. Nakamura.

Focus: Fatigue resistance in KK joints.

Research on the torsional behavior of composite girders with CSW-CFST truss chords

Journal: China Civil Engineering Journal, 2023, 56(10), pp. 93–126.

Co-authors: H. Huang, Q. Wu, S. Nakamura, J. Dong.

Focus: Examines torsion resistance in truss chord girders.

Equivalent static calculation method for CFST arch bridges considering hanger fracture dynamics

Journal: China Civil Engineering Journal, 2023, 56(6), pp. 63–74.

Co-authors: Q. Wu, J. Luo, H. Wang.

Focus: Static response analysis for hanger-damage scenarios.

Experimental investigation on composite girders with CSW-CFST truss chords subjected to combined flexure and torsion

Journal: Advances in Structural Engineering, 2023, 26(8), pp. 1468–1485.

Co-authors: H. Huang, Q. Wu, S. Nakamura.

Focus: Studies combined structural load effects.

Calculation Method for Flexural Bearing Capacity of Composite Girders with CFST Truss Chords

Journal: Journal of Bridge Engineering, 2023, 28(5), 04023019.

Co-authors: H. Huang, Q. Wu, S. Nakamura.

Focus: Provides a simplified flexural capacity model for girders.

Fatigue Performance Test and Finite-Element Analysis of CFST K-Joints

Journal: Journal of Bridge Engineering, 2023, 28(3), 04023003.

Co-authors: Q. Wu, H. Huang, Q. Zheng, S. Nakamura.

Focus: Combines experimental and computational methods to study joint fatigue.

Conclusion

Dr. Chen Kangming’s remarkable achievements in bridge engineering, steel-concrete composite structures, and fatigue resistance research make him an excellent candidate for the Best Researcher Award. His extensive research portfolio, innovative contributions, and academic leadership set him apart. Strengthening his global presence, interdisciplinary efforts, and public outreach could elevate his profile further, aligning with the award’s standards for exemplary researchers.

Yasmeen Obaidat | Structural eng | Best Researcher Award

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Prof. Yasmeen Obaidat | Structural eng | Best Researcher Award

Professor at ordan university of science and technology, Jordan

Associate Professor of Civil Engineering at Jordan University of Science & Technology (JUST). 📚 Earned a Ph.D. from Lund University, Sweden (2011), and MSc/BSc from JUST. 🏗️ Expert in structural retrofitting, nonlinear finite element modeling, and AI applications in civil engineering. 🌍 Active researcher with 40+ publications and contributor to academic growth at JUST and Yarmouk University. 🎓 Dedicated mentor, supervisor, and conference participant.

 

Publication Profile

scholar

Education🎓

Ph.D.: Civil Engineering, Structural Mechanics, Lund University, Sweden (2011). Dissertation: Structural retrofitting of concrete beams using FRP Licentiate: Structural Mechanics, Lund University, Sweden (2009). Thesis: Retrofitting reinforced concrete beams with CFRP. M.Sc.: Structural Engineering, JUST, Jordan (2007). Thesis: Retrofitting RC beams with composite laminates. B.Sc.: Structural Engineering, JUST, Jordan (2004).

Experience🧑‍🏫

Professor, Civil Engineering, JUST (2023-present). Associate Professor, Civil Engineering, JUST (2012-2019). Head of Civil Engineering Department, Yarmouk University (2012-2015). Assistant Professor, Civil Engineering, JUST and Yarmouk University. Established civil engineering labs and supervised 50+ undergrad projects.

Awards and Honors🏆

Member of Undergraduate Projects Committee, Jordanian Engineers Association (2019-present).  Instrumental in academic and research partnerships nationally and internationally.  Established civil engineering labs at Yarmouk University.  Significant contributions to faculty development at JUST and Yarmouk University.

Research Focus🔍 

Structural retrofitting and strengthening with FRP materials.  Nonlinear finite element modeling in civil engineering applications. AI integration in structural engineering solutions  Climatic design for sustainable civil engineering practices.  Published 40+ peer-reviewed articles and supervised MSc/PhD students.

Publication  Top Notes

“The effect of CFRP and CFRP/concrete interface models when modelling retrofitted RC beams with FEM”
📄 Composite Structures (2010), 92(6), pp. 1391–1398.
👀 Cited 369 times, this study investigates finite element modeling (FEM) techniques for retrofitted RC beams using CFRP.

“Retrofitting of reinforced concrete beams using composite laminates”
📄 Construction and Building Materials (2011), 25(2), pp. 591–597.
🔗 Cited 202 times, this article explores composite laminate retrofitting for RC beams, focusing on structural performance.

“Retrofitting of partially damaged reinforced concrete beam-column joints using various plate-configurations of CFRP under cyclic loading”
📄 Construction and Building Materials (2019), 198, pp. 313–322.
🌐 Cited 72 times, it examines innovative CFRP configurations for seismic retrofitting of RC joints.

“Evaluation of parameters of bond action between FRP and concrete”
📄 Journal of Composites for Construction (2013), 17(5), pp. 626–635.
📊 Cited 62 times, focuses on critical bond parameters affecting FRP-concrete interaction.

“Effect of olive waste (Husk) on behavior of cement paste”
📄 Case Studies in Construction Materials (2016), 5, pp. 19–25.
🌱 Cited 58 times, investigates the sustainable use of olive waste in cement paste formulations.

“Structural retrofitting of concrete beams using FRP-debonding issues”
📄 Doctoral Dissertation (2011).
📗 Cited 54 times, addresses challenges of FRP debonding in structural retrofitting applications.

“A new technique for repairing reinforced concrete columns”
📄 Journal of Building Engineering (2020), 30, 101256.
🏗️ Cited 44 times, proposes an innovative column repair method using CFRP.

“Non-linear finite-element investigation of the parameters affecting externally-bonded FRP flexural-strengthened RC beams”
📄 Results in Engineering (2020), 8, 100168.
🖥️ Cited 42 times, presents a FEM analysis for flexural strengthening of RC beams.

“New anchorage technique for NSM-CFRP flexural strengthened RC beam using steel clamped end plate”
📄 Construction and Building Materials (2020), 263, 120246.
🚧 Cited 40 times, this work details advanced anchorage solutions for NSM-CFRP systems.

“Performance of RC beam strengthened with NSM-CFRP strip under pure torsion: Experimental and numerical study”
📄 International Journal of Civil Engineering (2020), 18, pp. 585–593.
🔄 Cited 38 times, investigates the torsional strengthening of RC beams using NSM-CFRP strips.

“Shear strengthening of RC beams using near-surface mounted carbon fibre-reinforced polymers”
📄 Australian Journal of Structural Engineering (2019), 20(1), pp. 54–62.
✂️ Cited 38 times, explores NSM-CFRP applications for shear strength enhancement.

“Compressive strength prediction of lightweight short columns at elevated temperature using gene expression programming and artificial neural network”
📄 Journal of Civil Engineering and Management (2020), 26(2), pp. 189–199.
🔥 Cited 27 times, uses AI to predict structural performance under heat stress.

“Case study on production of self-compacting concrete using white cement by-pass dust”
📄 Case Studies in Construction Materials (2018), 9, e00190.
🔍 Cited 27 times, highlights sustainable concrete production methods.

“Effect of aggregate size on the bond behavior between carbon fiber–reinforced polymer sheets and concrete”
📄 Journal of Materials in Civil Engineering (2019), 31(12), 04019295.
📐 Cited 24 times, examines how aggregate size impacts CFRP-concrete bond behavior.

“Effect of elevated temperature on the bond behavior between NSM-CFRP strips and recycled aggregate concrete”
📄 Construction and Building Materials (2020), 251, 118970.
🌡️ Cited 22 times, investigates bond integrity under heat exposure.

“Behavior of NSM CFRP reinforced concrete columns: Experimental and analytical work”
📄 Case Studies in Construction Materials (2021), 15, e00589.
🏗️ Cited 21 times, combines experimental and analytical approaches to column strengthening.

“A nonlinear finite element model for shear deficient heat-damaged concrete beams repaired using NSM CFRP strips”
📄 Construction and Building Materials (2018), 170, pp. 314–325.
🔨 Cited 21 times, provides a FEM-based solution for repairing heat-damaged beams.

“Repair of heat-damaged SCC cantilever beams using SNSM CFRP strips”
📄 Structures (2020), 24, pp. 151–162.
🔧 Cited 20 times, focuses on repairing SCC beams using advanced CFRP techniques.

“Innovative strengthening schemes of concrete cantilever beams using CFRP sheets: End anchorage effect”
📄 Construction and Building Materials (2018), 190, pp. 1215–1225.
💡 Cited 17 times, analyzes the end anchorage impact in CFRP-strengthened beams.

Conclusion

The candidate demonstrates exceptional qualifications and achievements in structural mechanics, retrofitting techniques, and civil engineering education. Their blend of academic excellence, research productivity, leadership roles, and mentorship makes them a strong contender for the Best Researcher Award. By focusing on enhancing global impact and diversifying research interests, they can further solidify their stature as a leading researcher.

Juan Bai | Materials and Structures | Women Researcher Award

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Dr.  Queensland university of technology, Australia

Dr. Bai J. is an ARC DECRA Fellow and Lecturer at Queensland University of Technology, with a strong background in material physics and chemistry. Their research is centered on designing and synthesizing functional nanostructured materials for electrochemistry and energy conversion, particularly in fuel cells and electrocatalysis. Dr. Bai has published 24 papers in leading SCI journals such as Advanced Materials and ACS Energy Letters. Recognized for their contributions, they have received prestigious awards, including the Australian Research Council DECRA and Discovery Projects awards. Dr. Bai holds a Ph.D. from Shaanxi Normal University and has extensive expertise in electrochemical energy storage and conversion devices.

Professional Profiles:

Google scholar

 

🎓 Education

Feb. 2024 – Present:
ARC DECRA Fellow/Lecturer, School of Chemistry and Physics, Queensland University of Technology, Brisbane, Australia.Apr. 2020 – Jan. 2024:
Postdoc in Electrocatalysis, School of Chemistry and Physics, Queensland University of Technology, Brisbane, Australia.
Supervisors: Prof. Ziqi Sun, Jun MeiSep. 2016 – Jun. 2019:
Ph.D. in Material Physics and Chemistry, School of Materials Science and Engineering, Shaanxi Normal University, Xi’an, China.
Supervisors: Prof. Yu Chen, Jinghui ZengSep. 2012 – Jun. 2015:
M.S. in Physical Chemistry, College of Chemistry and Materials Science, Nanjing Normal University, Nanjing, China.
Supervisors: Prof. Dongmei Sun, Yu Chen, Tianhong LuSep. 2008 – Jun. 2012:
B.S. in Science Education, Department of Applied Chemistry, Yuncheng University, Yuncheng, China.

🔬 Research Objectives

My research is centered on the design and synthesis of functional nanostructured materials for applications in electrochemistry and energy conversion devices. Key areas of focus include:Anodic and Cathodic Reactions of Fuel Cells: ORR, MOR, EOR, and FAORElectrocatalysts: Noble metal-based (Pt, Pd, Rh) nanoparticles for HER, OER, and NRRAs the first/co-first/corresponding author, I have published 24 papers in top-tier SCI Journals such as Advanced Materials, ACS Energy Letters, and Advanced Energy Materials.

🏆 Awards and Honors

2023: Australian Research Council Discovery Early Career Researcher Award (DECRA) – $448,407.002023: Australian Research Council Discovery Projects – $404,530.002018: National Scholarship for Graduate Students (Ph.D.)2017: Research Individual Award by Shaanxi Normal University2017: Ji-Xue Scholarship by Shaanxi Normal University2016: Yuan-Ding Scholarship by Shaanxi Normal University2015: Excellent Student Award by Nanjing Normal University

Strengths for the Award

  1. Extensive Research Experience: The candidate has a strong background in material physics and chemistry, with a focus on nanostructured materials and their applications in electrochemical energy conversion. This expertise is highly relevant to the award, as it demonstrates a deep understanding of a critical field in modern science.
  2. Publication Record: With 24 papers published in high-impact SCI journals such as Advanced Materials, ACS Energy Letters, and Advanced Energy Materials, the candidate has established herself as a leading researcher in her field. This prolific publication record underscores her ability to contribute original and significant research to the scientific community.
  3. Award and Recognition: The candidate has received prestigious awards, including the 2023 Australian Research Council Discovery Early Career Researcher Award (DECRA) and substantial research funding. These accolades reflect her recognized potential and achievements within the scientific community.
  4. Research Focus on Sustainability: The candidate’s work on electrocatalysts and fuel cells, especially in the context of sustainable energy, aligns with global priorities in renewable energy and environmental protection. This makes her research not only innovative but also socially and environmentally impactful.
  5. Professional Skills: The candidate has demonstrated a high level of expertise in experimental techniques, theoretical knowledge, and the use of advanced instrumentation. These skills are essential for conducting cutting-edge research in electrochemistry and material science.

Areas for Improvement

  1. Broader Impact and Outreach: While the candidate has an impressive academic and research background, there is limited information on her involvement in outreach activities, mentoring, or promoting women in science. Increasing visibility and engagement in these areas could enhance her candidacy for a Women Researcher Award, which often considers contributions beyond academic achievements.
  2. Interdisciplinary Collaboration: While the candidate’s research is highly specialized, further collaboration across disciplines could lead to broader applications of her work and increase its overall impact. Engaging in interdisciplinary projects or collaborations with industry could further elevate her profile.

 

✍️Publications Top Note :

Nanocatalysts for Electrocatalytic Oxidation of Ethanol
Authors: J. Bai, D. Liu, J. Yang, Y. Chen
Journal: ChemSusChem, 12(10), 2117-2132, 2019
Citations: 170
🧪 Focus: Ethanol oxidation using nanocatalysts.

Polyallylamine-Functionalized Platinum Tripods: Enhancement of Hydrogen Evolution Reaction by Proton Carriers
Authors: G.R. Xu, J. Bai, L. Yao, Q. Xue, J.X. Jiang, J.H. Zeng, Y. Chen, J.M. Lee
Journal: ACS Catalysis, 7(1), 452-458, 2017
Citations: 147
🔋 Focus: Hydrogen evolution reaction.

Bimetallic Platinum–Rhodium Alloy Nanodendrites as Highly Active Electrocatalyst for the Ethanol Oxidation Reaction
Authors: J. Bai, X. Xiao, Y.Y. Xue, J.X. Jiang, J.H. Zeng, X.F. Li, Y. Chen
Journal: ACS Applied Materials & Interfaces, 10(23), 19755-19763, 2018
Citations: 145
⚗️ Focus: Platinum-rhodium alloy for ethanol oxidation.

Atomically Ultrathin RhCo Alloy Nanosheet Aggregates for Efficient Water Electrolysis in Broad pH Range
Authors: Y. Zhao, J. Bai, X.R. Wu, P. Chen, P.J. Jin, H.C. Yao, Y. Chen
Journal: Journal of Materials Chemistry A, 7(27), 16437-16446, 2019
Citations: 143
🌊 Focus: Water electrolysis using RhCo alloy nanosheets.

Au Nanowires@Pd-Polyethylenimine Nanohybrids as Highly Active and Methanol-Tolerant Electrocatalysts Toward Oxygen Reduction Reaction in Alkaline Media
Authors: Q. Xue, J. Bai, C. Han, P. Chen, J.X. Jiang, Y. Chen
Journal: ACS Catalysis, 8(12), 11287-11295, 2018
Citations: 133
🧪 Focus: Oxygen reduction reaction in alkaline media.

Polyethyleneimine Functionalized Platinum Superstructures: Enhancing Hydrogen Evolution Performance by Morphological and Interfacial Control
Authors: G.R. Xu, J. Bai, J.X. Jiang, J.M. Lee, Y. Chen
Journal: Chemical Science, 8(12), 8411-8418, 2017
Citations: 115
⚛️ Focus: Hydrogen evolution through platinum superstructures.

Hydrothermal Synthesis and Catalytic Application of Ultrathin Rhodium Nanosheet Nanoassemblies
Authors: J. Bai, G.R. Xu, S.H. Xing, J.H. Zeng, J.X. Jiang, Y. Chen
Journal: ACS Applied Materials & Interfaces, 8(49), 33635-33641, 2016
Citations: 96
🔬 Focus: Rhodium nanosheet for catalytic applications.

Molybdenum‐Promoted Surface Reconstruction in Polymorphic Cobalt for Initiating Rapid Oxygen Evolution
Authors: J. Bai, J. Mei, T. Liao, Q. Sun, Z.G. Chen, Z. Sun
Journal: Advanced Energy Materials, 12(5), 2103247, 2022
Citations: 87
Focus: Oxygen evolution in cobalt.

One-Pot Fabrication of Hollow and Porous Pd–Cu Alloy Nanospheres and Their Remarkably Improved Catalytic Performance for Hexavalent Chromium Reduction
Authors: S.H. Han, J. Bai, H.M. Liu, J.H. Zeng, J.X. Jiang, Y. Chen, J.M. Lee
Journal: ACS Applied Materials & Interfaces, 8(45), 30948-30955, 2016
Citations: 85
🌍 Focus: Catalytic reduction of hexavalent chromium.

Glycerol Oxidation Assisted Electrocatalytic Nitrogen Reduction: Ammonia and Glyceraldehyde Co-Production on Bimetallic RhCu Ultrathin Nanoflake Nanoaggregates
Authors: J. Bai, H. Huang, F.M. Li, Y. Zhao, P. Chen, P.J. Jin, S.N. Li, H.C. Yao, J.H. Zeng
Journal: Journal of Materials Chemistry A, 7(37), 21149-21156, 2019
Citations: 84

Conclusion

The candidate is exceptionally well-suited for the Women Researcher Award, given her extensive research experience, strong publication record, and recognized achievements in the field of electrochemistry and materials science. Her work is not only innovative but also highly relevant to global challenges, particularly in sustainable energy. To further strengthen her candidacy, the candidate might consider expanding her impact through outreach, mentoring, and interdisciplinary collaboration.