Assoc. Prof. Dr. Ping Li | Engineering | Best Researcher Award

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Assoc. Prof. Dr. Ping Li | Engineering | Best Researcher Award

Associate professor, Northwest University, China

Dr. Ping Li is an accomplished Associate Professor in the Department of Geology at Northwest University, Xi’an, China. With a robust academic and research background in geological and civil engineering, she has built her career around unsaturated soil mechanics, soil bioengineering, and soil microstructure analysis. Dr. Li is widely recognized for her extensive contributions to geotechnical research, particularly in the study of loess soils and their behavior under environmental influences. Her collaborative international work, especially during her joint PhD in Canada, reflects her commitment to advancing the understanding of sustainable soil engineering.

Professional Profile

Scopus

🎓 Education Background:

Dr. Ping Li holds a Ph.D. in Geological Engineering from Chang’an University (2013–2016) and a Joint Ph.D. in Civil Engineering from the University of Ottawa, Canada (2014–2016), where she conducted her thesis in English on predicting the wetting-induced collapse of unsaturated soils. She also earned her MSc (2011–2013) and BSc (2007–2011) in Geological Engineering from Chang’an University, graduating with a strong academic record and a GPA of 3.84.

💼 Professional Experience:

Dr. Li currently serves as an Associate Professor and Doctoral Supervisor at Northwest University, a position she has held since January 2023 after working as a Lecturer in the same department from 2017 to 2022. Her teaching responsibilities include courses like Foundation Engineering and Soil Testing Techniques. Throughout her career, she has played principal and collaborative roles in several national and provincial scientific projects focusing on loess deformation, soil stability, and eco-friendly soil improvement techniques.

🏆 Awards and Honors:

While specific awards are not individually listed, Dr. Li has successfully led multiple prestigious projects funded by the National Natural Science Foundation of China, China Postdoctoral Science Foundation, and the Shaanxi Provincial Department of Education, highlighting her respected status in the field and her capacity to secure competitive research grants.

🔬 Research Focus:

Dr. Ping Li’s research revolves around three major themes: soil bioengineering, unsaturated soil mechanics, and soil microstructure. Her work investigates how vegetation roots impact the physical and mechanical properties of compacted loess, how collapse behaviors can be modeled under different wetting scenarios, and how advanced imaging can be used to quantify microstructural changes. She also explores sustainable approaches using biochar and nanomaterials to stabilize loess soils and improve their hydraulic behavior. Her research is both theoretical and application-driven, aiming to enhance infrastructure stability and environmental resilience.

🔚 Conclusion:

Dr. Ping Li stands out as a leading geotechnical researcher with deep expertise in loess soil behavior, sustainability, and microstructural analysis. Her dedication to academic excellence, international collaboration, and real-world problem-solving in soil mechanics has significantly influenced the field. She continues to mentor future geoscientists and push the boundaries of eco-geotechnical engineering.

📚 Top Noted Publications :

  1. Investigating the saturated hydraulic conductivity and its variation of a fine-grained soil with root exudates of Robinia pseudoaccaciaJournal of Rock Mechanics and Geotechnical Engineering, 2025, Accepted.
    Cited by: Pending

  2. Effects of vegetation roots on the structure and hydraulic properties of soils: A perspective reviewScience of The Total Environment, 2024, Vol. 906.
    Cited by: 15+

  3. Influence of biochar on the soil‑water retention behavior of compacted loessJournal of Soils and Sediments, 2024, Vol. 24.
    Cited by: 10+

  4. Effects of molding water content and compaction degree on the microstructure and permeability of compacted loessActa Geotechnica, 2023, Vol. 18.
    Cited by: 25+

  5. Review of chemical stabilizing agents for improving the physical and mechanical properties of loessBulletin of Engineering Geology and the Environment, 2021, Vol. 80.
    Cited by: 40+

  6. Characterizing and modeling the pore-size distribution evolution of a compacted loess during consolidation and shearingJournal of Soils and Sediments, 2020, Vol. 20.
    Cited by: 35+

  7. Microstructural evolution of loess soils from the Loess Plateau of ChinaCatena, 2019, Vol. 173.
    Cited by: 50+

  8. Simple method for prediction of the soil collapse behavior due to wettingInternational Journal of Geomechanics, 2018, Vol. 18.
    Cited by: 70+

  9. Prediction of the wetting-induced collapse behavior using the soil-water characteristic curveJournal of Asian Earth Sciences, 2019, Vol. 151.
    Cited by: 60+

  10. Review of collapse triggering mechanism of collapsible soils due to wettingJournal of Rock Mechanics and Geotechnical Engineering, 2016, Vol. 8.
    Cited by: 80+

 

Dr. Zheng Liu | Materials Science | Best Researcher Award

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Dr. Zheng Liu | Materials Science | Best Researcher Award

Engineer, TaiHang Laboratory, China

Dr. Zheng Liu is a dedicated Chinese materials engineer currently serving at the Taihang National Laboratory in Chengdu, Sichuan, China. Specializing in polymer chemistry and advanced composite materials, he has made significant contributions to the development of structural and wave-transparent composites. With a strong academic foundation and multiple research publications in high-impact journals, Dr. Liu is known for his work on interface modification and high-performance fiber-reinforced composites. His research is widely recognized in both academic and industrial settings.

Publication Profile

🎓 Education Background

Dr. Zheng Liu earned his Bachelor’s Degree in 2018 from Nanchang Hangkong University. He went on to receive his Master’s Degree from Northwestern Polytechnical University in 2021, where he continued and completed his Ph.D. in 2024. His academic journey has equipped him with in-depth knowledge in polymer science, composite mechanics, and material interface engineering.

💼 Professional Experience

Since March 2024, Dr. Liu has been working as an Engineer at the Lightweight Structure and Materials Manufacturing Research Center, part of the Taihang National Laboratory & Northwestern Polytechnical University. His professional focus includes the engineering of high-performance polymer and ceramic matrix composites, particularly those used in wave-transparent applications and thermal management.

🏅 Awards and Honors

While specific awards are not listed, Dr. Zheng Liu’s academic excellence is reflected through his multiple peer-reviewed publications in top-tier journals like Composites Science and Technology, Polymer Composites, and Journal of Materials Science & Technology. His work has gained citations and is co-authored with prominent researchers, demonstrating peer recognition and scholarly impact.

🔬 Research Focus

Dr. Liu’s research interests span across Polymer Chemistry and Physics; Structural/functional integrated composites; Wave-transparent and Wave-absorbing composites; Ceramic matrix composites; Thermal Conductive Composites; and Modification of Composites Interfaces. He focuses on the synthesis and design of high-performance materials with applications in aerospace, electronics, and advanced engineering.

✅ Conclusion

With a solid academic background, active research contributions, and a position at one of China’s leading research institutions, Dr. Zheng Liu is emerging as a promising figure in the field of polymer and composite materials. His ongoing work continues to drive innovations in material science, with particular emphasis on interface engineering and multifunctional composite development.

📚 Top Publications Notes – Dr. Zheng Liu 

  1. A mini‐review of ultra‐low dielectric constant intrinsic epoxy resins: Mechanism, preparation and application
    📅 2024Polymers for Advanced Technologies
    📑 Cited by: To be updated (new article)

  2. Interfacial strengthening and processing of carbon fibers reinforced poly(ether-ether-ketone) composites: A mini-review
    📅 2024Polymer Composites
    📑 Cited by: To be updated (new article)

  3. Block copolymer functionalized quartz fibers/cyanate ester wave-transparent laminated composites
    📅 2023Journal of Materials Science & Technology
    📑 Cited by: 20+ articles (estimated)

  4. Branched Fluorine/Adamantane Interfacial Compatibilizer for PBO Fibers/Cyanate Ester Wave-Transparent Laminated Composites
    📅 2023Chinese Journal of Chemistry
    📑 Cited by: 10+ articles (estimated)

  5. Low dielectric constant and highly intrinsic thermal conductivity fluorine-containing epoxy resins with ordered liquid crystal structures
    📅 2023SusMat
    📑 Cited by: 12+ articles (estimated)

  6. PBO fibers/fluorine-containing liquid crystal compound modified cyanate ester wave-transparent laminated composites with excellent mechanical and flame retardance properties
    📅 2023Journal of Materials Science & Technology
    📑 Cited by: 15+ articles (estimated)

  7. Hybrid Polymer Membrane Functionalized PBO Fibers/Cyanate Esters Wave-Transparent Laminated Composites
    📅 2022Advanced Fiber Materials
    📑 Cited by: 20+ articles (estimated)

  8. Significantly improved interfacial properties and wave-transparent performance of PBO fibers/cyanate esters laminated composites via introducing a polydopamine/ZIF-8 hybrid membrane
    📅 2022Composites Science and Technology
    📑 Cited by: 25+ articles (estimated)

  9. Improving the comprehensive properties of PBO fibres/cyanate ester composites using a hyperbranched fluorine and epoxy containing PBO precursor
    📅 2021Composites Part A: Applied Science and Manufacturing
    📑 Cited by: 30+ articles (estimated)

  10. Optimization of PBO fibers/cyanate ester wave-transparent laminated composites via incorporation of a fluoride-containing linear interfacial compatibilizer
    📅 2021Composites Science and Technology
    📑 Cited by: 35+ articles (estimated)

 

Alexandru Paraschiv | Materials Engineering | Young Scientist Award

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Dr. Alexandru Paraschiv | Materials Engineering | Young Scientist Award

Senior Researcher, Romanian Research and Development Institute for Gas Turbines COMOTI, Romania

🌟 Dr. Alexandru Paraschiv is a distinguished Research Scientist I at the National Research and Development Institute for Gas Turbines COMOTI in Bucharest, Romania. With over 11 years of expertise in Materials Science and Advanced Manufacturing Technologies, his work has significantly advanced the fields of high-temperature materials and additive manufacturing. Dr. Paraschiv’s groundbreaking research has earned him recognition in both national and international projects, particularly in aerospace applications. 🚀

Profile

ORCID

 

Education: 🎓

Dr. Alexandru Paraschiv completed his Ph.D. in Industrial Engineering from the Doctoral School of Industrial Engineering and Robotics at POLITEHNICA University of Bucharest, Romania, in 2021. He holds a Master’s degree in Engineering Nanostructures and Nonconventional Processes (2014) and a Bachelor’s degree in Industrial Engineering (2012) from the same university. 📚

Experience: 🏢

Dr. Paraschiv has steadily advanced through various roles at COMOTI, starting as a Scientific Researcher Assistant in 2013 and reaching his current position as a Scientific Researcher I in 2024. His career includes significant project management and mentorship roles, contributing to the development of new materials and technologies for high-performance aerospace components. 🔬

Research Interests: 🔍

Dr. Paraschiv’s research focuses on additive manufacturing, high-temperature oxidation kinetics, and the development of advanced materials for aerospace and energy applications. His work in optimizing laser powder bed fusion technology and thermal spraying techniques has been pivotal in creating high-performance components for extreme environments. 🌡️

Awards: 🏆

Dr. Paraschiv’s innovative contributions have been recognized with numerous medals and awards at international invention exhibitions. He has also received significant funding for his projects from prestigious organizations, including the European Space Agency and the Romanian Minister of Research and Innovation. 🎖️

Publications

Assessment of Residual Stresses in Laser Powder Bed Fusion Manufactured IN 625
Materials, 17(2), 413 (2024)
Experimental Research into an Innovative Green Propellant Based on Paraffin–Stearic Acid and Coal for Hybrid Rocket Engines

Assessment of Additive Manufactured IN 625’s Tensile Strength Based on Nonstandard Specimens
Investigation of Scanning Strategies and Laser Remelting Effects on Top Surface Deformation of Additively Manufactured IN 625
Laser Powder Bed Fusion Process Parameters’ Optimization for Fabrication of Dense IN 625