Jingpin Jiao – Ultrasonic non-destructive testing – Best Researcher Award 

Prof. Jingpin Jiao - Ultrasonic non-destructive testing - Best Researcher Award 

Beijing University of Technology - China

Author Profile

Scopus

🎓 Early Academic Pursuits

Professor Jingpin Jiao began his academic journey at Beijing University of Technology, where he has focused extensively on ultrasonic non-destructive testing technology. His commitment to advancing the field of material damage assessment through non-destructive methods has been a hallmark of his career. Professor Jiao's foundational research laid the groundwork for his significant contributions to ultrasonic non-destructive testing, particularly in structural early micro-damage detection and composite material null-coupling technologies.

💼 Professional Endeavors

Professor Jiao's professional career is distinguished by his extensive research and innovations in ultrasonic non-destructive testing. With a remarkable H-index of 15, he has authored over 60 journals published in SCI and Scopus indexed journals, demonstrating his significant impact in the field. His work includes ten completed or ongoing research projects and ten consultancy/industry projects, showcasing his active engagement in both academic and practical applications. Notably, Professor Jiao holds 124 patents, highlighting his inventive contributions to ultrasonic non-destructive testing technology.

🔬 Contributions and Research Focus

Professor Jiao's research has led to major breakthroughs in ultrasonic non-destructive testing, specifically in structural early micro-damage detection technology and composite material null-coupling detection technology. His innovative approach has advanced the field significantly, enabling more accurate and effective assessment of material integrity without causing damage. The impact of his work is evident in his high citation index and his leadership in research projects aimed at improving non-destructive testing methodologies.

🌍 Impact and Influence

The influence of Professor Jiao's research in ultrasonic non-destructive testing extends across academia and industry. His advancements in early micro-damage detection and composite material testing have set new standards for assessing material integrity. Professor Jiao's extensive patent portfolio and numerous publications reflect his substantial contributions to the field. His work has not only advanced scientific understanding but has also enhanced practical applications in material testing.

🏆Academic Cites

Professor Jiao's research has garnered significant attention, as evidenced by his citation index and numerous publications in high-impact journals. His work on ultrasonic non-destructive testing has been widely cited, indicating its importance and relevance in the field. His research contributions are accessible through academic platforms, further underscoring his influence and the value of his innovations in non-destructive testing technologies.

🌟 Legacy and Future Contributions

Professor Jiao's legacy in the field of ultrasonic non-destructive testing is marked by his pioneering research and innovative contributions. His future work promises to continue advancing the technology, addressing new challenges, and exploring emerging applications. As a leading researcher, Professor Jiao is well-positioned to drive future developments in non-destructive testing, further solidifying his impact and legacy in the field.

📝Ultrasonic non-destructive testing

Professor Jiao's research is deeply rooted in ultrasonic non-destructive testing, focusing on both theoretical advancements and practical applications. His significant contributions to ultrasonic non-destructive testing technology include major breakthroughs in early micro-damage detection and composite material testing, demonstrating the transformative impact of his work. Through his extensive research and innovation, Professor Jiao has played a crucial role in advancing ultrasonic non-destructive testing methodologies and applications.

Notable Publication


📝Adaptive Linear Chirplet Synchroextracting Transform for Time-Frequency Feature Extraction of Non-Stationary Signals

Authors: Z. Yan, J. Jiao, Y. Xu

Journal: Mechanical Systems and Signal Processing

Year: 2024


📝Nondestructive Evaluation of Debonding in Composites Using Air-Coupled Coda Wave Analysis and Local Defect Resonance Techniques

Authors: Z. Li, J. Jiao, X. Zheng, C. He, B. Wu

Journal: Smart Materials and Structures

Year: 2024


📝Ultrasonic Immersion Testing of Residual Stress in Plates Using Collinear Lamb Wave Mixing Technique

Authors: J. Jiao, L. Li, H. Zhang, B. Wu, C. He

Journal: NDT and E International

Year: 2024


📝Nonlinear Ultrasonic Detection Method of Collinear Wave Mixing for Thermal Damage in High Temperature Pipeline 

Authors: J. Jiao, Z. Li, J. Sun, C. He, B. Wu

Journal: Hedongli Gongcheng/Nuclear Power Engineering

Year: 2024


📝Establishment and Application of a Semianalytical Model of Ultrasonic Power Transfer

Authors: J. Jiao, Z. Qiao, B. Liu, J. Yang, X. Gao

Journal: IEEE/ASME Transactions on Mechatronics

Year: 2024

Dhanalakshmi Karuppaiyan | Ultrasonics | Best Researcher Award  

Dr. Dhanalakshmi Karuppaiyan | Ultrasonics | Best Researcher Award 

Periyar Maniyammai Institute of Technology | India

AUTHOR PROFILE

EARLY ACADEMIC PURSUITS

Dr. Dhanalakshmi Karuppaiyan began her academic journey at Seethalakshmi Ramaswami College in Trichy, Tamil Nadu, where she has been pursuing her Ph.D. in Physics since July 2017. Her early academic endeavors laid a strong foundation in physics, leading her to explore the intricate properties of peptides and their interactions in various mediums.

PROFESSIONAL ENDEAVORS

Throughout her career, Dr. Dhanalakshmi has extensively researched the properties of peptides, particularly in non-aqueous solutions. Her professional endeavors have focused on investigating the thermodynamical, electrochemical, and biological properties of peptides using advanced techniques such as Ultrasonics and molecular modeling. She has contributed to several journals, showcasing her findings in the fields of materials science, engineering, and pharmaceutical research.

CONTRIBUTIONS AND RESEARCH FOCUS

Dr. Dhanalakshmi's research has significantly advanced the understanding of peptides' behavior in non-aqueous solutions. Her work on Ultrasonics has been instrumental in studying the acoustic, thermodynamic, and antimicrobial properties of peptides. By utilizing Ultrasonics and other molecular modeling techniques, she has provided valuable insights into the solvation, transport, and electrochemical properties of peptide solutions.

IMPACT AND INFLUENCE

Dr. Dhanalakshmi's contributions to the field of peptide research have had a substantial impact on both theoretical and applied sciences. Her innovative use of Ultrasonics and other analytical methods has influenced the study of peptide interactions, paving the way for new applications in pharmaceuticals and material sciences. Her research has been widely cited in academic literature, reflecting her influence in these domains.

ACADEMIC CITATIONS

Dr. Dhanalakshmi's research publications have garnered numerous citations, underscoring her impact on the scientific community. Her studies on peptides, particularly those involving Ultrasonics, have been referenced by researchers in various fields, highlighting the significance of her work.

LEGACY AND FUTURE CONTRIBUTIONS

Dr. Dhanalakshmi's legacy is marked by her significant contributions to the study of peptides and their interactions in non-aqueous solutions. Her future research is anticipated to further explore the applications of Ultrasonics in peptide analysis, continuing to advance the understanding of their properties and potential uses in various scientific and industrial fields. Her ongoing work promises to build on her established legacy, pushing the boundaries of peptide research and its applications.

ULTRASONICS 

Dr. Dhanalakshmi's research prominently features the keyword Ultrasonics, which plays a central role in her studies. The integration of Ultrasonics with other analytical techniques has been crucial in her research, highlighting its importance in understanding peptide properties. This keyword underscores the innovative approach she has taken in her scientific endeavors, contributing to the broader field of physics and material sciences.

NOTABLE PUBLICATION