Behnaz Hassanpour | Civil/Material Science | Best Researcher Award

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Dr. Behnaz Hassanpour | Civil/Material Science | Best Researcher Award

Researcher at Universty of Texas at Arlington, United States

Behnaz Hassanpour, PhD, is a dedicated Civil and Mechanical Engineer with a strong expertise in advanced composite materials. Her work revolves around materials design, additive manufacturing, and mechanical simulation, with a focus on developing innovative solutions for complex engineering challenges. With a proven track record in research, she has contributed significantly to the understanding of moisture uptake kinetics and its influence on the durability of fiber-reinforced composites. Her skills span mechanical design, product development, and material characterization, making her a leading figure in the field of composite materials engineering.

Profile

Scholar

🎓 Education

Behnaz Hassanpour holds a PhD in Civil Engineering from the University of Texas at Arlington, which she completed between May 2020 and August 2024. Her dissertation focused on “Hygrothermal Exposure Based Moisture and Glass Transition Temperature Kinetics of Carbon/Epoxy Composites,” showcasing her expertise in composite material durability. Prior to her PhD, she earned a Master of Science in Mechanical Engineering from the same institution (August 2018 – May 2020), where she investigated the microstructure and viscoelastic properties of SLM IN718 following various heat treatments. She also holds a Bachelor’s degree in Physics Engineering with a specialization in Laser and Optics from Azad University Science and Research (August 2009 – May 2013), highlighting her interdisciplinary academic background.

💼 Experience

Behnaz has extensive experience in both research and teaching. Her notable research projects include:

  • Durability of Composite Materials: She conducted comprehensive research on hygrothermal aging of polymer composites, developing a two-stage model for moisture uptake prediction and analyzing its effects on glass transition temperature.

  • Additive Manufacturing: She optimized mechanical components manufactured through 3D printing, specifically focusing on nickel superalloy (Inconel 718) using the EOS M219 machine. Her experiments involved heat treatment optimization and dynamic viscoelasticity characterization.

  • Material Characterization: She employed advanced techniques such as SEM, EDS, XRD, TGA, DSC, DMA, and TMA to analyze microstructures, mechanical properties, and material compositions.

  • Forensic Analysis of Fiber Reinforced Concrete: As part of a Texas Department of Transportation (TxDOT) project, she evaluated concrete pavements’ durability through field evaluations and SEM/EDX analysis.

She also has teaching experience, instructing courses such as Mechanics of Materials, Thermal Engineering, and Thermodynamics.

🔬 Research Interests

Behnaz Hassanpour’s research interests center around:

  • Durability of Fiber-Reinforced Composites: Studying the effects of hygrothermal exposure and moisture uptake kinetics on composite materials.

  • Additive Manufacturing: Enhancing the mechanical performance of metal 3D-printed parts through heat treatment and process optimization.

  • Material Characterization: Applying advanced testing methods to investigate microstructure, mechanical properties, and thermal behavior of composite and metallic materials.

  • Concrete and Pavement Analysis: Conducting forensic studies on fiber-reinforced concrete to predict service life and improve material durability.

🏅 Awards and Fellowships

Throughout her academic and professional career, Behnaz Hassanpour has earned numerous prestigious awards and fellowships, including:

  • Graduate School Dissertation Fellowship (Summer 2024)

  • Civil & Environmental Engineering STEM Doctoral Fellowship (Spring 2022 – Spring 2024)

  • DDOC COE Civil Engineering Fellowship (Fall 2022 – Spring 2023)

  • Civil Engineering Scholarship (Fall 2022 – Spring 2023)

  • DDDA MAE Scholarship (Fall 2020 – Fall 2021)

  • MAE A. Haji-Sheikh Scholarship (Fall 2020 – Spring 2021)

  • Mechanical Dept. Chair Graduate Assistantship (Aug 2019 – May 2020)

These accolades reflect her excellence in both research and academic leadership.

📄 Publications

Behnaz Hassanpour has published several influential research papers in reputable journals, including:

  1. Hassanpour B, Karbhari VM. Characteristics and models of moisture uptake in Fiber-Reinforced Composites: A Topical Review. Polymers. 2024; 16(16):2265.

    • Cited by multiple articles exploring composite durability and moisture kinetics.

  2. Hassanpour B, Karbhari VM. Glass transition temperature as a characteristic of the durability of fiber-reinforced polymer composites. In Aging and Durability of FRP Composites and Nanocomposites. Woodhead Publishing, Elsevier, London, UK. 2024. Chapter 15, 341-362.

    • Recognized for its insights into durability factors of FRP composites.

  3. Hassanpour B, Karbhari VM. Moisture and glass transition temperature kinetics of ambient-cured Carbon/Epoxy composites. Journal of Composites Science. 2023; 7(11):447.

    • Cited by researchers analyzing epoxy-based composites.

  4. Karbhari VM, Hassanpour B. Water, saltwater, and concrete leachate solution effects on durability of ambient-temperature cure carbon-epoxy composites. Journal of Applied Polymer Science. 2022; 139(27):e52496.

    • Valued for its contribution to composite durability studies.

Conclusion

Dr. Behnaz Hassanpour’s extensive publication record, impactful research projects, and outstanding contributions to material science and engineering make her a highly deserving candidate for the Best Researcher Award. Her innovative models, collaboration with industry, and commitment to mentoring future engineers showcase her exceptional capabilities and influence in the scientific community

Paul Bere | Fiber Reinforcement in Composites | FRP Industry Collaboration Award

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Prof Dr. Paul Bere | Fiber Reinforcement in Composites | FRP Industry Collaboration Award

Professor at Technical University of Cluj-Napoca, Romania

Profiles:

Current Position🏢

Professor Paul Petru Bere currently serves as a Professor at the Technical University of Cluj-Napoca, within the Faculty of Industrial Engineering, Robotics, and Production Management, specifically in the Manufacturing Engineering Department. He holds a significant position in the academic community, contributing his expertise and experience in manufacturing and polymeric composite materials. His extensive background in teaching, combined with his cutting-edge research, enables him to impact both the academic and industrial sectors. He has been a part of the university since 2018, after a successful tenure as an Associate Professor from 2018 to 2023.

Educational and Professional Background 📚

Professor Bere earned his Doctor of Engineering degree from the Technical University of Cluj-Napoca in 2009, specializing in manufacturing and mechanical behavior of polymeric composite tubes. This research was pivotal in understanding the potential applications and mechanical characteristics of composite materials, specifically in manufacturing processes. Furthermore, he obtained his Master’s degree in Modern Technology of Manufacturing Composite and Plastic Parts from the same institution, where he focused on rapid prototyping technologies and plastic and MC parts manufacturing. This foundation in both engineering and research laid the groundwork for his subsequent academic and professional achievements.

Research Interests and Ongoing Projects 🧠

Professor Bere’s research is primarily focused on advanced manufacturing technologies, composite materials, and polymeric materials used in sustainable development and automotive manufacturing. His ongoing research aims to optimize fiber-reinforced polymer composites for the electric vehicle industry, enhancing the performance and sustainability of components for electric vehicle bodies. He is actively involved in the EU-funded BRIDGE GRANT project titled “Optimization of Fiber-Reinforced Polymer Composite Materials and Manufacturing Technology Used in the Construction of Body Elements for Electric Vehicles”. This project, which holds a grant value of €100,000, investigates innovative manufacturing methods to make electric vehicles more efficient and environmentally friendly.

Moreover, his international research collaboration focuses on “Design and Modeling of Complex Surfaces Made of Composite Materials Using Catia V5 R20 Software”, highlighting his global contribution to the development of advanced manufacturing processes and materials.

Publication Achievements and Research Output 📄

Professor Bere has authored over 20 academic papers published in peer-reviewed journals and presented at various international conferences. His work has been extensively cited in fields related to composite materials, manufacturing technologies, and automotive industries. These contributions have earned him recognition as a key scholar in the manufacturing engineering field, influencing both academic circles and industrial practices. His research in composite material behavior and advanced production technologies is widely regarded as impactful in improving sustainability and performance in multiple industries, including automotive and aerospace engineering.

Awards and Recognition 🏆

Throughout his career, Professor Bere has been the recipient of several prestigious awards, including the BRIDGE GRANT, which allowed him to lead the research project on electric vehicle body optimization. His leadership in securing funding for significant research projects exemplifies his prowess in navigating and securing governmental and international funding for crucial scientific research. His successful management of the PN-III-CERC-CO-BG-2016 project demonstrates his ability to lead high-value research initiatives. This grant focuses on fiber-reinforced polymer composite materials, making significant strides in sustainable materials research.

Professional Associations and Collaborations 🌍

Professor Bere is an active member of several professional associations related to manufacturing engineering, composite materials, and sustainable manufacturing. His leadership in international collaborations strengthens his role as a bridge between Romanian academia and global research networks. His role as the project manager for international research agreements further highlights his capacity for collaboration and knowledge sharing in the scientific community.

Training, Workshops, and Oral Presentations 🗣️

With 28 years of teaching experience, Professor Bere has also contributed extensively to training the next generation of engineers. He has delivered numerous workshops on composite materials, advanced manufacturing technologies, and sustainable development. These workshops are vital in equipping students and professionals with practical skills that align with cutting-edge industrial applications. His extensive background in CAD mold design and prototyping techniques ensures that he is highly qualified to train others in these important areas.

He has also presented at many international conferences, where his oral presentations on manufacturing technologies and sustainable material applications have garnered attention. His ability to communicate complex research to diverse audiences has been one of his key strengths.

Laboratory Experience and Research Success 🔬

Throughout his career, Professor Bere has developed and conducted numerous experimental studies in the field of polymeric composite materials. His laboratory research focuses on understanding the manufacturing processes and mechanical behaviors of composite materials, crucial for industries such as automotive and aerospace. He has successfully led multiple experimental projects, and his work continues to shape the future of smart manufacturing and sustainable material use.

A Well-Rounded Leader in Manufacturing Engineering 🌟

Professor Paul Petru Bere stands out as an exceptional scholar and researcher. His strong academic credentials, extensive research, and successful project management make him a strong candidate for recognition. His ongoing work in optimizing composite materials and developing sustainable manufacturing technologies is paving the way for innovations in electric vehicles and other industries. With his dedication to both teaching and research, his significant contributions to the manufacturing engineering field are invaluable. His work is essential not only for the academic community but also for industry advancements, making him a true leader in his field.

📖Publications:

Paper Title: Design and Manufacture of Bent and Variable Section Tubes Made of FRP Composite

  • Authors: Bere, P., Dudescu, C., Parparit, M., Vilau, C.
  • Journal: MM Science Journal
  • Year: 2024

Paper Title: Understanding the Effect of Drilling Parameters on Hole Quality of Fiber-Reinforced Polymer Structures

  • Authors: Biruk-Urban, K., Bere, P., Udroiu, R., Józwik, J., Beer-Lech, K.
  • Journal: Polymers
  • Year: 2024

Paper Title: Study of the Torsional Phenomena in the Wing Structure of a Quadplane Type UAS

  • Authors: Parparita, M., Bere, P., Jozwik, J.
  • Journal: IEEE International Workshop on Metrology for Aerospace, MetroAeroSpace 2024
  • Year: 2024

Paper Title: Evaluation of the Tribological Properties of Different Fiber Reinforced Polymers

  • Authors: Cioaza, M., Birleanu, C., Pustan, M., Bere, P., Contiu, G.
  • Journal: Mechanisms and Machine Science
  • Year: 2024

Paper Title: Tribological Investigation of Glass Fiber Reinforced Polymer Composites against 52100 Chrome Alloy Steel Based on ELECTRE Decision-Making Method

  • Authors: Birleanu, C., Cioaza, M., Serdean, F., Bere, P., Contiu, G.
  • Journal: Polymers
  • Year: 2024

 

Ibrahim Shaaban | Fiber Characterization and Testing | Best Researcher Award

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Prof. Ibrahim Shaaban | Fiber Characterization and Testing | Best Researcher Award

Professor at University of west London, United Kingdom

Profiles:

Current Position 🔝

Prof. Ibrahim Galal Shaaban is currently serving as the Chair Professor of Structural Engineering and the Head of the Civil Engineering Department at a prominent university, a role he took on in 2023. As the Chair Professor, he leads a dynamic team of civil engineering experts, spearheading cutting-edge research and guiding future generations of engineers. His leadership in the MSc Structural Engineering program (since September 2022) further demonstrates his commitment to the development of specialized education in structural engineering, nurturing talent and driving forward innovative methodologies in civil infrastructure.

Publication Achievements 📚

Prof. Shaaban has an extensive publication record, with numerous peer-reviewed articles in high-impact journals. His research is widely cited, reflecting his profound influence on the fields of reinforced concrete analysis, structural engineering, and technology. He has contributed to papers on the structural integrity of materials, concrete design, and advanced construction techniques, earning him international recognition as a thought leader. His work on sustainable construction materials is particularly notable, addressing the environmental challenges faced by modern engineering.

Ongoing Research 🔬

Prof. Shaaban is actively involved in groundbreaking research, focusing on reinforced concrete structures, structural resilience, and innovative engineering materials. His ongoing projects explore the durability and performance of structures in extreme environmental conditions, contributing to the global discourse on sustainability in civil engineering. Additionally, his research on smart materials and structural health monitoring systems aims to enhance the longevity and safety of infrastructure, integrating cutting-edge technologies with traditional engineering principles.

Research Interests 🧠

Prof. Shaaban’s research interests span a broad range of topics within civil and structural engineering. His expertise includes:

  • Reinforced concrete analysis and design.
  • Advanced structural materials and their performance.
  • Sustainability in construction and green building techniques.
  • Structural health monitoring and damage detection in civil structures.
  • Seismic performance of structures and their resilience to natural disasters.

His work not only advances academic knowledge but also provides practical solutions to contemporary engineering challenges, ensuring safer and more sustainable infrastructure for future generations.

Academic Background 🎓

Prof. Shaaban has a distinguished academic background that laid the foundation for his illustrious career. He earned his PhD in Reinforced Concrete Analysis and Technology from the University of Dundee, UK, in 1993, following a Master’s degree in Structural Engineering from Ain Shams University, Cairo, Egypt, in 1988. His academic journey began with a Bachelor of Science in Civil Engineering, also from Ain Shams University, where he graduated with honors in 1984.

His academic training at prestigious institutions, combined with his practical experience, has solidified his reputation as a leading expert in civil and structural engineering.

Scholarships and Awards 🏆

Throughout his career, Prof. Shaaban has been the recipient of several prestigious awards, recognizing his contributions to engineering education and research. His accolades include awards for excellence in teaching, innovative research, and leadership in engineering development. These awards highlight his commitment to pushing the boundaries of engineering knowledge and his dedication to improving the educational framework for future engineers.

Professional Associations 🤝

Prof. Shaaban is an active member of several professional engineering bodies, which help to foster collaboration and knowledge sharing within the field. His memberships include:

  • American Society of Civil Engineers (ASCE)
  • Institution of Civil Engineers (ICE)
  • Egyptian Society of Engineers (ESE)

His involvement in these associations allows him to stay at the forefront of developments in civil engineering and contribute to international standards and practices.

Training & Workshops 📚

Over the course of his career, Prof. Shaaban has organized and participated in numerous training sessions and workshops, both nationally and internationally. These training programs cover topics such as concrete technology, structural analysis, and construction management, providing valuable insights to engineering professionals and students alike.

Oral Presentations 🗣️

Prof. Shaaban is a sought-after speaker at international conferences, where he presents his research findings and shares his expertise on civil engineering topics. His presentations have addressed issues like sustainability in construction, reinforced concrete innovations, and resilience of structures under seismic loads. His ability to communicate complex concepts to both academic and professional audiences has cemented his standing as a global authority in structural engineering.

Tasks Completed as a Researcher 🔧

Prof. Shaaban has successfully completed numerous research projects, many of which have been funded by prestigious grants. His work has contributed to the development of sustainable building materials, improved the safety and performance of concrete structures, and advanced innovative construction techniques. His research has had a lasting impact on the way modern infrastructure is designed and built, ensuring that structures are more resilient and environmentally friendly.

Success Factors ⭐

The success of Prof. Shaaban’s career can be attributed to his relentless pursuit of knowledge, innovative thinking, and dedication to both teaching and research. His ability to blend academic rigor with practical applications has made him a respected figure in civil engineering. His leadership roles, from Dean to Head of Department, showcase his commitment to developing educational systems that produce well-rounded, capable engineers.

Publications & Laboratory Experience 🧪

Prof. Shaaban’s laboratory experience in concrete technology and structural testing has played a significant role in his research output. He has authored numerous publications on reinforced concrete design, structural optimization, and material performance, contributing to the advancement of engineering science. His laboratory work continues to inform his research, ensuring that his findings are grounded in practical, real-world applications.

📖Publications:

Paper Title: The Efficiency of Calcium Oxide on Microbial Self-Healing Activity in Alkali-Activated Slag (AAS)

  • Authors: Hammad, N., El-Nemr, A., Shaaban, I.G.
  • Journal: Applied Sciences (Switzerland)
  • Year: 2024

Paper Title: Coupling Behavior of Autogenous and Autonomous Self-Healing Techniques for Durable Concrete

  • Authors: Hassanin, A., El-Nemr, A., Shaaban, H.F., Saidani, M., Shaaban, I.G.
  • Journal: International Journal of Civil Engineering
  • Year: 2024

Paper Title: Predictive models for mechanical properties of hybrid fibres reinforced concrete containing bamboo and basalt fibres

  • Authors: Chin, S.C., Shaaban, I.G., Rizzuto, J.P., Roslan, N.I.M., Aziz, A.A.
  • Journal: Structures
  • Year: 2024

Paper Title: Experimental and Analytical Study on the Shear Transfer in Composite Post Tensioned Precast Concrete Girders

  • Authors: Nabil, W., Shaaban, I.G., Khalil, A., Elwan, S.
  • Journal: International Journal of Civil Engineering
  • Year: 2024

Paper Title: Steel Reinforced Self-Compacting Concrete (SCC) Cantilever Beams: Bond Behaviour in Poor Condition Zones

  • Authors: Montaser, W.M., Shaaban, I.G., Rizzuto, J.P., Rashad, A., Sadany, S.M.E.
  • Journal: International Journal of Concrete Structures and Materials
  • Year: 2023

 

 

Yaojie Xu | Fiber Characterization and Testing | Best Researcher Award

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Dr. Yaojie Xu | Fiber Characterization and Testing | Best Researcher Award

Doctorate at Beijing Institute of Technology, China

Profile:

Current Position 📍

Yaojie Xu is currently pursuing his Ph.D. in Artillery, Automatic Weapons, and Ammunition Engineering at the Beijing Institute of Technology. Since September 2022, he has been contributing to the development of advanced protective materials, fiber modification techniques, and ballistic protection strategies. His research within the School of Mechanical and Electrical Engineering has earned him recognition in both academic and professional circles. Yaojie’s work focuses on enhancing materials for ballistic protection and damage resistance, positioning him as a leading young researcher in the field of military engineering.

Publication Achievements 📚

Yaojie Xu has already made significant contributions to the scientific community, with 8 journal articles published in highly regarded SCI and Scopus-indexed journals. These publications emphasize innovative methodologies for fiber modification and ballistic protection, offering advanced solutions for military and defense applications. His findings on the improved ballistic limit velocity of modified aramid fabrics have been acknowledged for their potential to revolutionize protective gear. His research is notable for its practical implications, particularly in enhancing the performance of protective fabrics under harsh environmental conditions like ultraviolet radiation.

Ongoing Research 🧪

Yaojie Xu is currently involved in 4 major research projects, focusing on fiber modification, protective materials, and ammunition engineering. One of his groundbreaking studies involves the modification of aramid fabric with CuO and ZnO particles, which has led to a remarkable 185.1% increase in ballistic performance compared to neat fabrics. This research aims to create lightweight, highly durable materials that can withstand extreme forces, such as ballistic impacts, while maintaining flexibility and user comfort. His ongoing work also includes exploring new techniques for reinforcing fibers with additional functionalities, pushing the boundaries of current material science in protective gear design.

Research Interests 🔬

Yaojie’s core research interests include fiber modification, advanced protective materials and structures, and ballistic protection. His work is driven by a desire to improve the performance and resilience of protective materials in military applications. By focusing on aramid fibers and their modification with particles like CuO and ZnO, Yaojie seeks to enhance their protective qualities under stress conditions such as UV radiation. His research on single-layer and two-layer fabrics showcases his deep interest in improving protective structures without significantly increasing their weight.

Academic Background 🎓

Yaojie Xu embarked on his Ph.D. journey in September 2022 at the Beijing Institute of Technology, specializing in Artillery, Automatic Weapons, and Ammunition Engineering. His strong academic background, particularly in mechanical and electrical engineering, has enabled him to explore the intersection of material science and defense technologies. The focus of his doctoral studies is on the modification of materials for ballistic protection and damage mitigation, areas that have far-reaching implications for the military and defense sectors.

Scholarships and Awards 🏆

Yaojie’s academic journey has been marked by several accolades and scholarships that reflect his dedication and excellence in research. These scholarships have provided him with the resources and opportunities to explore cutting-edge technologies in protective materials and fiber modification. His achievements include recognition for his high-impact publications and contributions to defense engineering.

Bioinformatics 💻

While primarily focused on material science and engineering, Yaojie has also integrated computational methods into his research. His use of bioinformatics tools helps him model and simulate the behavior of fibers and protective materials under various conditions. These simulations provide valuable insights into how modifications at the molecular level can enhance the overall performance of protective materials in real-world scenarios.

Professional Associations 🤝

Yaojie is an active member of several professional associations related to engineering and material science. These memberships provide him with access to cutting-edge research, conferences, and collaboration opportunities. Being part of these networks also allows Yaojie to stay updated with the latest trends and advancements in his field, contributing to his growth as a researcher.

Training & Workshops 🛠️

Throughout his academic career, Yaojie has participated in various training programs and workshops focused on material engineering, fiber modification techniques, and defense technologies. These sessions have not only enhanced his technical skills but also broadened his understanding of practical applications in his research areas. The training sessions have helped him refine his methodologies, enabling him to produce highly impactful research results.

Oral Presentations 🎤

Yaojie has presented his research findings at several national and international conferences and seminars, where his work on fiber modification and protective materials has been well-received. His presentations focus on the practical applications of his research, particularly in improving the safety and efficiency of protective gear used in defense sectors. These platforms have also given Yaojie the opportunity to collaborate with other researchers and experts in the field.

Tasks Completed as a Researcher ✅

During his Ph.D. studies, Yaojie has completed multiple high-impact research tasks. These include conducting extensive laboratory experiments on aramid fiber modification, analyzing the ballistic limit velocity of modified fabrics, and developing innovative methods for enhancing the protective capabilities of these materials. His work has resulted in 9 patents, further cementing his role as an innovator in the field of protective material design.

Success Factors 🌟

Yaojie’s success can be attributed to his dedication, innovative thinking, and strong technical expertise. His ability to integrate complex material science with real-world applications has made him a standout researcher. His relentless pursuit of improvement in protective gear performance underlines his commitment to the safety and effectiveness of military personnel. His success is also built on his ability to collaborate across disciplines, merging engineering with bioinformatics and material science.

📖Publications:

Paper Title: Experimental and numerical study on CuO/ZnO-modified aramid fabric for ballistic and UV radiation protection

  • Authors: Liu, L., Huang, F., Xu, Y., Lan, X., Huang, G.
  • Journal: Polymer Testing
  • Year: 2024

Paper Title: Review on the mechanical deterioration mechanism of aramid fabric under harsh environmental conditions

  • Authors: Xu, Y., Zhang, H., Huang, G.
  • Journal: Polymer Testing
  • Year: 2023

Paper Title: Numerical Investigation of Anti-ballistic Property of ZnO-modified Aramid Fabrics

  • Authors: Xu, Y., Liu, H., Zhang, H., Huang, G.
  • Journal: Binggong Xuebao/Acta Armamentarii
  • Year: 2023

Paper Title: Shear response behavior of SSE/Kevlar composite fabric before and after shear interlocking effect

  • Authors: Ma, Y., Hong, X., Xu, Y., Lei, Z., Huang, G.
  • Journal: Composite Structures
  • Year: 2023

Paper Title: Experimental and numerical study on the ballistic performance of a ZnO-modified aramid fabric

  • Authors: Xu, Y.J., Ma, Y., Xie, Y.C., Zhang, H., Huang, G.Y.
  • Journal: International Journal of Impact Engineering
  • Year: 2023