Rania El- Tantawy | Mathematics | Women Researcher Award

Posted on by Academic achievements

Assoc. Prof. Dr. Rania El- Tantawy | Mathematics | Women Researcher Award

Assoc. Prof. Dr. Rania El- Tantawy | Mathematics – Mathematics department at Damietta University, Egypt

Dr. Rania Mohammed Abdo El-Tantawy is an Associate Professor at the Department of Mathematics, Faculty of Science, Damietta University. With an exceptional academic background and extensive experience in teaching, research, and leadership, Dr. El-Tantawy has made significant contributions to applied mathematics, particularly in areas such as thermal stresses, torsion of viscoelastic composite materials, and functionally graded structures. She is deeply committed to advancing the quality of education and scientific research in her field. Throughout her career, Dr. El-Tantawy has taken on various administrative roles, promoting quality assurance, academic development, and performance evaluation. Her achievements in both research and service have earned her recognition as a leading scholar in her field.

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Education:

Dr. El-Tantawy completed her academic training at Mansoura University, where she earned her Bachelor of Science (B.Sc.) in Mathematics in 2004 with honors. Building on this strong foundation, she pursued a Master of Science (M.Sc.) in Applied Mathematics, completing her thesis on “Thermal Stresses for Rotating Viscoelastic Composite Disks with Variable Thickness” in 2008. She further advanced her academic career with a Ph.D. in Applied Mathematics from Mansoura University, where her doctoral research focused on “Torsion of Viscoelastic Composite Layers,” which provided new insights into the behavior of complex materials under stress.

Experience:

Dr. El-Tantawy’s professional journey includes various teaching and leadership roles. She began her academic career as a Demonstrator at the Mathematics Department of Mansoura University’s Damietta Branch in 2004. Over the years, she advanced to the position of Associate Professor in the Department of Mathematics at Damietta University. Dr. El-Tantawy has also held multiple administrative positions, including Deputy Director of the Quality Assurance and Accreditation Unit and Director of the Training and Technical Support Unit, among others. Her work in quality assurance, accreditation, and strategic planning has helped enhance educational standards and ensure the university’s continuous improvement.

Research Interests:

Dr. El-Tantawy’s primary research interests lie in applied mathematics, focusing on the analysis of stresses, torsion, and thermal responses in functionally graded materials, as well as composite structures under different loading conditions. Her research extensively addresses topics such as magneto-thermo-elasticity, piezoelectric materials, and viscoelastic composite disks, contributing valuable insights into engineering applications. By using advanced mathematical models, her research seeks to better understand the mechanical behavior of complex materials in various environmental conditions. This work has significant implications for designing materials and structures in fields such as aerospace, civil engineering, and materials science.

Awards:

Throughout her academic career, Dr. El-Tantawy has received numerous recognitions for her contributions to education and research. She has been nominated for the prestigious “Women Researcher Award” due to her excellence in both scholarly research and leadership. Dr. El-Tantawy’s academic achievements, particularly her significant contributions to applied mathematics, as well as her efforts to improve quality assurance and foster academic development, make her a standout candidate for such an award. Her work has not only advanced knowledge in her field but has also inspired countless students and fellow academics.

Publications:

Dr. El-Tantawy has authored and co-authored several influential research papers in prestigious academic journals. Notably, her work in applied mathematical modeling and material science has been published in a variety of highly cited journals. Some of her notable publications include:

  1. “Stresses of a Rotating Circular Disk of Variable Thickness Carrying a Current and Bearing a Coaxial Viscoelastic Coating” – Applied Mathematical Modelling (2008) 📚 DOI: 10.1016/j.apm.2007.06.002. Cited by 100+ articles.
  2. “A Refined Solution to the Problem of Torsion of a Viscoelastic Anisotropic Reinforced Layer” – International Journal of Open Problems in Computer Science and Mathematics (2010) 📚 Cited by 50+ articles.
  3. “Thermomagnetic Viscoelastic Responses in a Functionally Graded Hollow Structure” – Acta Mechanica Sinica (2011) 📚 DOI: 10.1007/s10409-011-0467-3. Cited by 70+ articles.
  4. “Analysis of Functionally Graded Piezoelectric Cylinders in a Hygrothermal Environment” – Advances in Applied Mathematics and Mechanics (2014) 📚 DOI: 10.4208/aamm.12-m1277. Cited by 30+ articles.
  5. “Elastic and Viscoelastic Stresses of Nonlinear Rotating Functionally Graded Solid and Annular Disks with Gradually Varying Thickness” – Archive of Mechanical Engineering (2017) 📚 DOI: 10.1515/meceng-2017-0025. Cited by 50+ articles.
  6. “Magneto-Elastic Influence on a Functionally Graded Porous Hollow Structure in Hygrothermal Environment” – Scientific Journal for Damietta Faculty of Science (2022) 📚 DOI: 10.21608/SJDFS.2018.194790. Cited by 20+ articles.

Conclusion:

Dr. Rania Mohammed Abdo El-Tantawy is an exemplary academic with a distinguished career in both research and leadership. Her contributions to applied mathematics, especially in the fields of thermal stresses, viscoelastic materials, and functionally graded structures, have positioned her as a leading researcher in her field. Dr. El-Tantawy’s dedication to advancing knowledge, coupled with her leadership in educational and quality assurance initiatives, makes her an ideal candidate for the “Women Researcher Award.” Her research, teaching, and service are a testament to her commitment to excellence and her continuous effort to contribute meaningfully to the scientific and academic communities.

Giuseppe Maria Coclite | Nonlinear PDEs | Best Paper Award

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Prof. Giuseppe Maria Coclite | Nonlinear PDEs | Best Paper Award 

Professor at Polytechnic of Bari, Italy

Giuseppe Maria Coclite is an accomplished Italian mathematician specializing in the field of partial differential equations. He is currently based in Bari, where he is involved in various research activities that significantly contribute to the mathematical sciences. His educational background is marked by rigorous training in mathematics, which laid a strong foundation for his research endeavors. Over the years, Coclite has garnered a wealth of experience in both teaching and research, contributing to his reputation as a leading expert in his field.

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ORCID

Education

Prof. Giuseppe Maria Coclite embarked on his academic journey in mathematics, laying the groundwork for a prolific career in the field. He completed his undergraduate and graduate studies at prestigious institutions, where he delved deeply into the intricacies of mathematical theory and applications. His education culminated in an advanced degree that emphasized partial differential equations (PDEs), a specialized area of mathematics that describes various phenomena in engineering and physical sciences. This rigorous training not only honed his analytical skills but also equipped him with a solid foundation in mathematical modeling, a critical aspect of his future research endeavors.

Experience

With a career spanning several decades, Prof. Coclite has established himself as a leading figure in the realm of mathematical sciences. Based in Bari, Italy, he holds a faculty position at a prominent university, where he combines his passion for teaching with his research pursuits. His teaching philosophy emphasizes the importance of fostering critical thinking and problem-solving skills among students, equipping them to tackle complex mathematical challenges.

Prof. Coclite’s experience is not limited to classroom instruction; he is also actively involved in various research initiatives. Over the years, he has collaborated with both national and international researchers, contributing to a diverse range of projects that apply mathematical theories to real-world problems. His roles in these projects often involve not only analysis but also the development of innovative numerical methods and computational techniques, showcasing his versatility as a mathematician.

Research Interests

Prof. Coclite’s primary research interests revolve around partial differential equations, particularly nonlinear dynamics and mathematical modeling. His work is characterized by a focus on how PDEs can be used to describe and predict complex physical phenomena. For instance, he has explored applications in fluid dynamics, where the behavior of fluids can be modeled using PDEs, and in wave propagation, where mathematical models help to understand the transmission of waves in different media.

One notable area of his research is boundary controllability, which examines how to control systems governed by PDEs at their boundaries. This topic has significant implications in various fields, including engineering, physics, and environmental science. Prof. Coclite’s investigations into the dynamics of physical systems governed by PDEs have led to substantial advancements in understanding how these systems behave under various conditions.

His interdisciplinary approach often involves collaborating with experts in related fields, allowing him to apply mathematical concepts to solve problems in engineering, biology, and materials science. This collaborative spirit has resulted in innovative solutions and new avenues of research, further solidifying his reputation as a leading researcher in the mathematical community.

Awards

Throughout his distinguished career, Prof. Coclite has received numerous awards and recognitions that attest to his contributions to mathematics. These accolades reflect not only his academic excellence but also his dedication to advancing the field of mathematics. His recognition in the form of awards underscores his impact on both the academic community and his students, inspiring the next generation of mathematicians.

His contributions to the understanding and application of PDEs have been acknowledged by his peers, earning him a respected position within the academic community. Prof. Coclite’s commitment to excellence is evident in his pursuit of innovative research and his efforts to share knowledge with students and colleagues alike.

Publications

Prof. Coclite’s scholarly output is impressive, with over 170 publications in reputable mathematical journals. His works cover a wide array of topics, reflecting his diverse research interests and contributions to the field. Noteworthy publications include:

“Inverse Design and Boundary Controllability for the Chromatography System” – This paper explores the applications of PDEs in chromatography, a vital process in chemical analysis and separation techniques.

“Exponential Convergence to Steady-States for Trajectories of a Damped Dynamical System Modeling Adhesive Strings” – In this publication, he examines the dynamics of systems that exhibit damping, providing insights into the behavior of materials under stress.

“H2-solutions for an Ostrosky–Hunter Type Equation” – This research addresses specific types of PDEs, contributing to the theoretical understanding of their solutions.

“A Numerical Framework for Nonlinear Peridynamics on Two-Dimensional Manifolds Based on Implicit P-(EC)k Schemes” – This paper presents a novel numerical approach to tackle complex mathematical models in material science.

“On the Dynamics of Aeolian Sand Ripples” – This publication investigates the mathematical modeling of natural phenomena, showcasing the applicability of PDEs to environmental science.

These publications not only highlight Prof. Coclite’s expertise but also serve as a resource for researchers and students interested in mathematical modeling and PDEs.

Conclusion:

Prof. Giuseppe Maria Coclite is an exemplary candidate for the Best Paper Award, distinguished by his prolific research contributions and interdisciplinary collaborations in the field of partial differential equations. His impressive portfolio of over 170 publications reflects a deep engagement with complex mathematical problems and their applications. Addressing broader societal issues, enhancing communication strategies, and emphasizing practical applications could further strengthen his profile for recognition. Prof. Coclite’s dedication to advancing mathematical knowledge and his commitment to education ensure that his work will continue to inspire and inform the mathematical community for years to come.