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

 

Simonetta D’Ercole | Composite Materials Science | Women Researcher Award

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Assoc Prof Dr. Simonetta D’Ercole | Composite Materials Science | Women Researcher Award

Professor Doctorate at University “G. d’Annunzio” Chieti-Pescara, Italy

Profiles:

🎓Early Academic Pursuits

Simonetta D’Ercole’s academic journey began with a solid foundation in the medical and dental sciences. She completed her Master’s degree in Dentistry and Dental Prosthetics from the University “G. d’Annunzio” of Chieti-Pescara, Italy, in 1994. Her quest for deeper knowledge and specialization led her to pursue a PhD in Biomedical Sciences at the same university, graduating in 2003. Her doctoral research focused on innovative experimental protocols for the laboratory diagnosis of periodontal disease, particularly through the detection of bacterial and viral DNA, setting the stage for her future contributions in microbiology and diagnostics.

🏢Professional Endeavors

Her professional career began with a post-doctoral fellowship at the Department of Biomedical Sciences, University “G. d’Annunzio.” From 2004 to 2007, she worked on developing new experimental protocols for diagnosing oral infections, which significantly advanced the field of microbiological diagnostics. Her dedication and expertise led to her appointment as a Senior Researcher (RTD.B) at the Department of Medical, Oral and Biotechnological Sciences from 2020 to 2023, where she continued her research on microbiology, biofilm, and antibiotic resistance. Since 2023, she has been serving as an Associate Professor at the same department, focusing on cutting-edge research in infectious diseases, salivary fingerprinting, and eco-sustainable strategies.

🔬Contributions and Research Focus

Simonetta D’Ercole’s research contributions are pivotal in the fields of microbiology and biofilm studies. Her work on antimicrobial photodynamic therapy and its impact on oral candidiasis highlights her innovative approach to combating oral infections. In a recent study published in Gels in 2024, D’Ercole and her colleagues explored the effectiveness of this therapy in vitro, demonstrating its potential to enhance oral health outcomes. Her research also delves into the use of complex magnetic fields as an eco-sustainable technology to address Candida albicans resistance without harming human gingival fibroblasts, as detailed in her 2023 publication in Scientific Reports.

Additionally, D’Ercole has investigated the antibacterial and antifungal properties of commercially available mouthwashes, contributing valuable insights into their efficacy against oral microorganisms. This study, published in Antibiotics in 2023, underscores her commitment to improving oral health through evidence-based research.

🏆Accolades and Recognition

Simonetta D’Ercole’s academic and research achievements have garnered significant recognition. Her h-index of 24 and a total of 1,627 citations reflect the impact and reach of her work in the scientific community. Her publications in high-impact journals such as Gels, Scientific Reports, and Antibiotics are a testament to her research excellence. D’Ercole’s contributions to the field have established her as a leading expert in microbiology, biofilm research, and antimicrobial resistance.

🌍Impact and Influence

D’Ercole’s research has profoundly impacted the fields of oral microbiology and biofilm studies. Her innovative approaches to diagnosing and treating oral infections have influenced clinical practices and opened new avenues for research in antimicrobial therapies. Her work on eco-sustainable technologies and non-antibiotic antimicrobial compounds addresses critical issues in managing antibiotic resistance and improving public health.

By advancing our understanding of oral pathogens and developing novel diagnostic and therapeutic strategies, D’Ercole has significantly influenced both academic research and practical applications in healthcare. Her interdisciplinary approach and commitment to eco-friendly solutions highlight her dedication to advancing science and addressing pressing global health challenges.

🌟Legacy and Future Contributions

Looking ahead, Simonetta D’Ercole is poised to continue her impactful research and contribute to the advancement of medical and dental sciences. Her ongoing work in antimicrobial strategies and eco-sustainable technologies promises to further enhance our understanding of microbial resistance and improve therapeutic approaches. As she continues to lead in her field, D’Ercole’s legacy will be defined by her contributions to microbiology, her dedication to innovation, and her commitment to improving global health outcomes.

📖Publications:

Paper Title: What Is the Impact of Antimicrobial Photodynamic Therapy on Oral Candidiasis? An In Vitro Study

  • Authors: D’Amico, E., Di Lodovico, S., Pierfelice, T.V., Petrini, M., D’Ercole, S.
  • Journal: Gels
  • Year: 2024

Paper Title: Staphylococcus pseudintermedius and Pseudomonas aeruginosa Lubbock Chronic Wound Biofilm (LCWB): a suitable dual-species model for in vitro studies

  • Authors: Di Lodovico, S., Petrini, M., Di Fermo, P., Nocera, F.P., Di Giulio, M.
  • Journal: Microbes and Infection
  • Year: 2024

Paper Title: Complex magnetic fields represent an eco-sustainable technology to counteract the resistant Candida albicans growth without affecting the human gingival fibroblasts

  • Authors: Di Lodovico, S., Petrini, M., D’Amico, E., Di Giulio, M., D’Ercole, S.
  • Journal: Scientific Reports
  • Year: 2023

Paper Title: Correlation between use of different type protective facemasks and the oral ecosystem

  • Authors: D’Ercole, S., Parisi, P., D’Arcangelo, S., Scarano, A., Tripodi, D.
  • Journal: BMC Public Health
  • Year: 2023

Paper Title: In Vitro Evaluation of Candida albicans Adhesion on Heat-Cured Resin-Based Dental Composites

  • Authors: De Angelis, F., D’Ercole, S., Di Giulio, M., Di Lodovico, S., D’Arcangelo, C.
  • Journal: Materials
  • Year: 2023

Yu-Ling He | Failure Analysis and Damage Mechanics | Best Researcher Award

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Prof Dr. Yu-Ling He | Failure Analysis and Damage Mechanics | Best Researcher Award

North China Electric Power University – China

Professional Profiles:

🌟 Prof. Dr. Yu-Ling He: Eminent Expert in Mechanical Engineering and Electric Power Systems 🚀

Early Academic Pursuits📚

Yu-Ling He was born in July 1984 in Long-Yan City, Fujian Province, China. His academic journey began with a solid foundation in mechanical and electrical engineering. He obtained his Bachelor’s degrees in both Mechanical Engineering and Electrical Engineering from North China Electric Power University (NCEPU) in Baoding, China, in 2007. Recognized for his academic excellence, he was granted early graduation and national exemption from admission examinations, allowing him to pursue a Master of Engineering in Mechatronics Engineering at NCEPU. He completed his master’s degree in 2009 and went on to achieve a Ph.D. in Power Machinery and Engineering from NCEPU in Beijing in 2012. His doctoral thesis was awarded the title of excellent doctoral thesis of the university in 2012.

Professional Endeavors🏆

After completing his Ph.D., Yu-Ling He embarked on a professional career at NCEPU, where he served as a Lecturer in the Department of Mechanical Engineering from 2012 to 2016. His dedication and contributions led to his promotion to Associate Professor in 2016, a position he held until the end of 2021. During this period, he also spent a year (2018-2019) as an academic visitor at the University of Nottingham in the UK, where he further honed his expertise in electrical and electronics engineering. In January 2022, he was promoted to Professor in the Department of Mechanical Engineering at NCEPU.

Yu-Ling He has also taken on significant leadership roles. He is the Vice Dean of the Department of Mechanical Engineering at NCEPU and the Vice Dean of the Hebei Engineering Research Center for Advanced Manufacturing & Intelligent Operation and Maintenance of Electric Power Machinery. Additionally, he serves as the Vice President and Secretary General of the Hebei Society for Vibration Engineering.

Contributions and Research Focus🔬

Yu-Ling He’s research interests lie at the intersection of advanced design, manufacturing, and intelligent maintenance of electric machines, mathematical modeling of complex electromechanical systems, and the development of intelligent mechatronics equipment. Over the past five years, he has led numerous grants and projects, significantly advancing the field.

Some notable projects include:

  1. National Natural Science Foundation of China (52177042): This project focuses on the complex thermal load characteristics of the Core-Winding System in large-capacity wind generators and the insulation deteriorating rules under typically abnormal conditions.
  2. National Natural Science Foundation of China (51777074): This project examines the complex mechanical properties of the stator-winding system in large capacity generators and insulation wear under typical running conditions.
  3. Top Youth Talent Support Program of Hebei Province: This ongoing project aims to support young talents in Hebei Province, with Yu-Ling He as the project leader.
  4. Wind-photovoltaic generation & storage complementary strategy: This project explores strategies and project-policy coupling technologies in Guangdong Province, appointed by Guangdong Electric Power Co., LTD.

Accolades and Recognition🎓🏅

Yu-Ling He has received numerous honors and awards throughout his career, highlighting his contributions and impact in his field. Some of these accolades include:

  1. Excellent graduates of Beijing City (2012)
  2. Scientific Specialist of Hebei Province (2015-present)
  3. 2nd class talent of Hebei Provincial 3-3-3 Talent Project (2020)
  4. Top Youth Talent of Hebei Province (2018)
  5. Youth Pacesetter of Digital Hebei (2021)
  6. Young star pacesetter of Hebei Province (2023)
  7. Excellent Expert of Baoding City (2020)
  8. Third Prize of Technical Invention Award of Hebei Province (2017)
  9. Third Prize of Science and Technology Progress Award of Hebei Province (2019)
  10. First Prize of the 5th National Equipment Management and Technology Innovation (2022)

Impact and Influence🌟

Yu-Ling He’s influence extends beyond his immediate academic and professional environment. As an IEEE Senior Member, he has actively contributed to the global academic community. He serves on the editorial boards of several prestigious journals, including the Journal of Vibration Measurement & Diagnosis and Industrial Measurement. His role as an academic editor and lead guest editor for various special issues further underscores his expertise and leadership in his field.

His peer review service is extensive, reviewing for top-tier journals such as IEEE Transactions on Industrial Electronics, Journal of Sound and Vibration, IEEE-ASME Transactions on Mechatronics, and many others. His contributions ensure the maintenance of high standards in academic publishing and the dissemination of quality research.

Legacy and Future Contributions🌍

Looking ahead, Yu-Ling He is poised to continue making significant contributions to the field of mechanical engineering and electric power machinery. His ongoing projects, such as the development of intelligent external dust removal systems for thermal power plants and the standard establishment of digital twin models for new energy source power systems, are set to address critical challenges in the industry.

His work not only advances academic knowledge but also has practical applications that benefit the energy sector and broader society. As a mentor and supervisor, he is shaping the next generation of engineers and researchers, ensuring the continued growth and innovation in his field.

Yu-Ling He’s journey from a dedicated student to a leading expert and professor exemplifies the impact of rigorous academic pursuit, innovative research, and committed professional service. His legacy is one of excellence, influence, and continuous advancement in the realms of mechanical engineering and electric power systems.

Publication Top Noted:

Temjennaro Jamir | Computational Fluid Dynamics | Best Researcher Award

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Dr. Temjennaro Jamir | Computational Fluid Dynamics | Best Researcher Award

St John College, Dimapur, Nagaland - India

Professional Profiles:

Early Academic Pursuits

Temjennaro Jamir embarked on her academic journey in the field of mathematics, showcasing an early aptitude and passion for the subject. Her educational foundation was laid at Livingstone Foundation Hr. Sec. School, Dimapur, where she excelled in Mathematics, Science, Social Science, Hindi, and Information Technology, securing an impressive 86% in her HSLC examinations. Her academic excellence continued through her HSSLC years at Pranab Vidyaphit Hr. Sec. School, Dimapur, focusing on Mathematics, Physics, Chemistry, Computer Science, and English, achieving a commendable 76%.

Jamir’s undergraduate studies at Fazl Ali College, Mokokchung, were marked by distinction as she pursued a Bachelor of Science with a focus on Mathematics (Honors), Physics, and Computer Science, graduating as a Gold Medalist with a 6.04/7 CGPA. Her passion for mathematics propelled her to pursue a Master’s degree in Mathematics from Kohima Science College, Jotsoma, where she specialized in Fluid Dynamics and further distinguished herself as a Gold Medalist with an 8.89/10 CGPA. This solid academic foundation was pivotal in her qualifying for the prestigious CSIR-NET with JRF (NET)-UGC in Mathematical Sciences in 2024, setting the stage for her doctoral research.

Professional Endeavors

She professional career is as illustrious as her academic one. Starting in 2019, she served as a lecturer at Kohima Science College, Jotsoma, for four years, where she was deeply involved in teaching and mentoring students in advanced mathematical concepts. Her teaching stint extended to Theta Tutorial coaching institute in Kohima, Nagaland, where she imparted knowledge to aspiring students for two years. By January 2024, Jamir had taken up a significant role as an Assistant Professor in the Department of Mathematics at St. John College, Dimapur, Nagaland, India, where she continues to contribute to the academic community.

Contributions and Research Focus on Computational Fluid Dynamics

Temjennaro Jamir’s research contributions are primarily focused on the field of Fluid Dynamics, with a special interest in Magnetohydrodynamics (MHD), heat and mass transfer, and the effects of Soret and Dufour in porous mediums. Her work encompasses the study of unsteady MHD slip flow, heat and mass transfer over permeable stretching surfaces, and the investigation of various effects such as radiation absorption, viscous dissipation, and variable fluid properties on MHD flows. Her research has led to significant publications in esteemed journals and presentations at international conferences, highlighting her contributions to the field.

Accolades and Recognition

Throughout her academic and professional journey, Jamir has been recognized for her contributions and excellence. Her distinction as a Gold Medalist in both her Bachelor’s and Master’s degrees is a testament to her dedication and mastery over her subject. Her selection for the JRF (NET)-UGC further underscores her competence and potential in mathematical research.

Impact and Influence

Jamir’s work in the field of mathematics, particularly in Fluid Dynamics and its applications, stands as a significant contribution to both theoretical and applied mathematics. Her research has implications for various industries, including aerospace, automotive, and environmental engineering, where understanding fluid behavior under different conditions is crucial. Her dedication to teaching and mentoring the next generation of mathematicians ensures that her impact extends beyond her research, fostering a love for mathematics and scientific inquiry among students.

Legacy and Future Contributions

Looking ahead, Temjennaro Jamir is poised to make further contributions to the field of mathematics and its application to real-world problems. Her ongoing research and potential future studies will likely delve deeper into complex fluid dynamics problems, exploring new dimensions of heat and mass transfer, MHD, and the interplay of various physical effects in fluid flow. Through her continued excellence in teaching and research, Jamir is set to leave a lasting legacy in the academic community, inspiring future scholars and researchers to pursue excellence in their endeavors.

Citations:

                   Citations              13
                    h-index                  2
                  Documents             6

Notable Publications: