Yan Liu – High performance cementitious materials – Best Researcher Award

Posted on 26/09/202426/09/2024 by ScienceFather

Yan Liu - High performance cementitious materials - Best Researcher Award

Southeast University - China

AUTHOR PROFILE

SCOPUS

EXPERT IN ENGINEERING INNOVATION 🏗️

Yan Liu, Ph.D., earned his doctorate in Engineering from Southeast University, where he developed a keen focus on high-performance concrete materials. His innovative research has led to the publication of several SCI papers, demonstrating his expertise in the field. His work revolves around advanced materials used in construction, contributing significantly to the knowledge base of high-temperature resistant cement.

RESEARCH IN HIGH-PERFORMANCE CONCRETE 🧱

Yan Liu’s primary research focuses on the development of advanced concrete materials, particularly Magnesium Potassium Phosphate Cement (MKPC). His work explores the integration of fly ash and silica fume to improve the high-temperature performance of MKPC. By blending these components, he aims to enhance the durability and resilience of materials used in critical infrastructure, such as fireproof coatings and patching materials.

MAGNESIUM POTASSIUM PHOSPHATE CEMENT RESEARCH 🔥

One of Yan Liu’s key studies examines the behavior of MKPC under high-temperature conditions. His experiments involve testing the material’s compressive and flexural strength before and after exposure to elevated temperatures. His findings reveal that incorporating silica fume and fly ash significantly improves MKPC’s strength and heat resistance, making it more suitable for high-temperature environments.

MICROSTRUCTURE AND PHASE ANALYSIS 🔬

Utilizing advanced techniques such as XRD and SEM, Yan Liu delves into the microstructure of MKPC to understand its performance at a microscopic level. His research shows how silica fume and fly ash promote the sintering of phases derived from K-struvite decomposition, forming ceramic-like structures that enhance the material’s strength under extreme conditions.

INNOVATION IN MATERIAL DURABILITY 🏆

Yan Liu’s research has profound implications for the construction industry, particularly in enhancing the durability of materials used in high-temperature settings. His work on MKPC not only provides a deeper understanding of the material's behavior but also introduces practical solutions to improving fireproof and patching materials used in critical infrastructure projects.

ADVANCED CEMENT COMPOSITES 📚

Yan Liu has dedicated his career to advancing the performance of cement composites, focusing on the mechanical properties and interface mechanisms of materials like epoxy resin and CFRP. His research is geared toward creating tougher, more resilient building materials that can withstand both environmental stress and long-term wear, ensuring greater safety and reliability.

PASSION FOR SUSTAINABILITY 🌍

In addition to improving material performance, Yan Liu is passionate about sustainability in construction. His research into utilizing industrial by-products like fly ash and silica fume supports the industry’s shift towards greener, more sustainable practices. By reducing the environmental footprint of construction materials, his work aligns with global efforts toward sustainable development.

NOTABLE PUBLICATION

Title: Interface Mechanism and Mechanical Properties of Micron PS Epoxy Resin Toughened Steel-CFRP
Authors: Chen, Z., Yan, Z., Liu, Y., Peng, L.
Journal: Bulletin of the Chinese Ceramic Society
Year: 2024

Title: Fatigue Performance of Self-bonded Prestressed CFRP Repaired Steel Plates Containing Defects
Authors: Chen, Z.-Y., Liu, Y., Wang, S.-Q., Yan, Z.-Z., Peng, H.
Journal: Zhongguo Gonglu Xuebao/China Journal of Highway and Transport
Year: 2024

Title: Analysis of Residual Stresses in Curved Cutouts of Steel Box Girder Transverse Diaphragms
Authors: Wang, R., Xiong, Y., Ni, H., Liu, Y., Chen, Z.
Journal: Advances in Civil Engineering
Year: 2024

Title: Dynamic Frequency and Wet Mode of the Supporting Cables of a Submerged Floating Tunnel in Tube Motion State
Authors: Zhu, C., Liu, Y., Yi, Z.
Journal: Zhendong yu Chongji/Journal of Vibration and Shock
Year: 2024

Title: Study of Mechanical Properties of Micron Polystyrene-Toughened Epoxy Resin
Authors: Li, C., Liu, Y., Chen, Z.
Journal: Applied Sciences (Switzerland)
Year: 2023

Mohammed Mahmoud M. Attia – Materials Science and Engineering – Excellence in Innovation

Posted on 24/06/202424/06/2024 by ScienceFather

Mohammed Mahmoud M. Attia - Materials Science and Engineering - Excellence in Innovation

Suez university - Egypt

AUTHOR PROFILE

GOOGLE SCHOLAR

Based on the provided information about Mohammed Mahmoud M. Attia, he appears to be a suitable candidate for the Research for Community Impact Award. His extensive academic and professional background, combined with his contributions to sustainable construction and innovative materials, aligns well with the award's criteria.

EDUCATION

Mohammed Mahmoud M. Attia earned his Ph.D. in Civil Construction from Suez University, Egypt, in October 2018. His thesis, titled "Behavior of Post-Tension Prestressed Lightweight Fiber Reinforced Concrete Beams," was supervised by Prof. Dr. Aymen Hussien Hosny Khalil. He also holds a Master’s degree from the same institution, granted in September 2013, with a thesis on producing lightweight self-cured concrete using local materials. His Bachelor’s degree in Civil Construction was obtained from Suez Canal University in May 2007.

TEACHING EXPERIENCE

Dr. Attia has extensive teaching experience, having taught various courses at different academic levels. These include Technical Reports (Arabic and English), Technical Drawing, Properties and Strength of Materials, Theory of Structures, Architectural Drawing, Surveying, Building Technology, Reinforced Concrete Design, and several others. His teaching spans from first-year undergraduate courses to advanced topics in civil engineering.

PROFESSIONAL EXPERIENCE

Dr. Attia currently serves as an Assistant Professor in the Civil Construction Department at Suez University, a position he has held since June 2021. Prior to this, he was a lecturer and assistant lecturer in the same department. He has also been actively involved in consultancy projects for Suez University and has significant experience in quality control and accreditation processes for educational programs and laboratories.

RESEARCH SUPERVISION

Dr. Attia has supervised multiple M.Sc. and Ph.D. researchers on topics such as textile composite materials as alternatives to rebar, eco-friendly concrete nanomaterials for radiation shielding, and the flexural behavior of RC beams strengthened with hybrid steel-FRP bars. These research projects indicate his commitment to advancing knowledge in sustainable and innovative construction materials.

SOFTWARE PROFICIENCY

Dr. Attia is proficient in various software programs essential for civil engineering and structural analysis, including Ansys, SAP 2000, AutoCAD, MATLAB, CSI ETABS, CSI SAFE, Revit Structure, and Microsoft Word.

PROFESSIONAL SERVICE AND LEADERSHIP

Dr. Attia has held several key positions and participated in numerous workshops and tutorials related to his field. He has been a reviewer for prestigious journals such as the American Journal of Construction and Building Materials, Springer Nature Journal, and Advances in Concrete Construction. He has also coordinated multiple accreditation and quality assurance programs, as well as seminars on sustainable development and green energy.

MEDIA ENGAGEMENT AND OUTREACH

Dr. Attia has actively engaged with the media to discuss important topics such as climate change, technological education, and artificial intelligence. His appearances on Egyptian TV channels highlight his ability to communicate complex scientific ideas to a broader audience, thereby increasing public awareness and understanding.

PUBLICATIONS

Dr. Attia has contributed to the field of civil engineering through various publications. His research on sustainable materials, such as the use of sugarcane bagasse ash and nano eggshell powder in high-strength concrete, and the development of eco-friendly radiation shielding composites using metal-nail waste and steel slag aggregate, demonstrates his focus on innovative and environmentally friendly construction solutions.

CONCLUSION

Dr. Mohammed Mahmoud M. Attia’s extensive academic background, teaching experience, professional service, and research contributions make him a highly suitable candidate for the Research for Community Impact Award. His work in sustainable construction and innovative materials has a significant positive impact on the community, aligning perfectly with the objectives of this award.

NOTABLE PUBLICATION

Effects of sugarcane bagasse ash and nano eggshell powder on high-strength concrete properties 2022 (50)

Metal-nails waste and steel slag aggregate as alternative and eco-friendly radiation shielding composites 2022 (27)

Behavior of FRP rods under uniaxial tensile strength with multiple materials as an alternative to steel rebar 2022 (19)

Performance of RC beams with novelty GFRP under the bending load: An experimental and FE study 2023 (2)

Tests and finite element modeling of concrete beams reinforced with reused steel bars 2024

Vijaya Bhaskar Reddy – Polymer Nanocomposites – Excellence in Innovation

Posted on 22/03/2024 by ScienceFather

Vijaya Bhaskar Reddy - Polymer Nanocomposites - Excellence in Innovation

BMS Institute of Technology & Management - India

AUTHOR PROFILE

Scopus

EARLY ACADEMIC PURSUITS

A. Vijaya Bhaskar Reddy embarked on his academic journey with a Bachelor of Science in Chemistry from Sri Venkateswara University, Tirupati, India. He continued his education with a Master of Science in Organic Chemistry and subsequently earned a Doctor of Philosophy (Ph.D.) in Chemistry from the same institution. His doctoral dissertation focused on the development and validation of novel analytical methods for the analysis of pharmaceuticals using LC-MS/MS.

PROFESSIONAL ENDEAVORS

With over 6 years of university teaching experience and 5 years of postdoctoral research experience from top global universities, A. Vijaya Bhaskar Reddy has made significant contributions to both academia and industry. He has served as an Assistant Professor, Associate Professor, and Principal Scientist & Quality Manager at various institutions, where he taught courses, conducted research, and managed quality control processes.

CONTRIBUTIONS AND RESEARCH FOCUS

A. Vijaya Bhaskar Reddy's research interests span a wide range of areas, including the development of new analytical methods for pharmaceuticals and pollutants, analysis of new emerging pollutants in industrial wastewaters, development of low-cost adsorbents for water purification, and the synthesis of Ionic Liquid (IL) polymers for CO2 capture and separation. His contributions to these fields have been documented in over 60 publications in high-impact journals.

IMPACT AND INFLUENCE

Through his extensive research and academic activities, A. Vijaya Bhaskar Reddy has established himself as a leading expert in the field of polymer nanocomposites. His work has not only advanced scientific knowledge but also contributed to the development of innovative solutions for environmental challenges and industrial applications. Additionally, his editorial roles and memberships in professional bodies have further solidified his influence in the scientific community.

ACADEMIC CITES

A. Vijaya Bhaskar Reddy's research publications have been widely cited in high-impact journals, demonstrating the relevance and impact of his work in the scientific community. His collaborations with eminent scientists and researchers across the globe have facilitated knowledge exchange and contributed to the advancement of scientific research in polymer nanocomposites and related fields.

LEGACY AND FUTURE CONTRIBUTIONS

As an esteemed academic and researcher, A. Vijaya Bhaskar Reddy's legacy lies in his significant contributions to the fields of chemistry, environmental science, and materials science. His ongoing commitment to research, teaching, and collaboration is expected to continue shaping the future of polymer nanocomposites and influencing scientific discourse and innovation in related areas.