Max Barillas | Computational Mechanics | Best Researcher Award

Published on by Civil Engineering

Mr. Max Barillas | Computational Mechanics | Best Researcher Award

PhD Researcher | Centre Internacional de Metodes Numerics en Enginyeria | Spain

Mr. Max Barillas is a dedicated researcher specializing in computational and mechanical engineering with a strong focus on data-driven modeling and materials design. Currently serving as a Predoctoral Researcher at the Centre Internacional de Mètodes Numèrics en Enginyeria (CIMNE) in Barcelona, Max contributes to advancing numerical and computational methods for solving complex engineering problems. His academic trajectory includes a Master of Science in Mechanical Engineering from Santa Clara University and ongoing doctoral research in Civil Engineering at the Universitat Politècnica de Catalunya. Max’s work demonstrates a strong interdisciplinary approach that merges computational mechanics, materials science, and applied mathematics. His notable research includes the development of non-intrusive, data-driven methodologies for addressing inverse problems in bending dielectric elastomer actuators, emphasizing efficiency and accuracy in modeling soft robotic systems. Additionally, he has contributed to the design of low-porosity auxetic tessellations aimed at reducing mechanical stress concentrations, a study that supports innovations in lightweight and flexible materials. Through these investigations, Max explores the intersection of structural optimization and smart materials, striving to enhance mechanical performance and adaptability. His research reflects a commitment to bridging theoretical frameworks with real-world applications in advanced materials and engineering design. Overall, Max Barillas’s scholarly contributions highlight a forward-thinking perspective within computational mechanics, focusing on leveraging mathematical modeling and numerical analysis to address modern challenges in material behavior and structural engineering, reinforcing his role as an emerging expert in the field of computational and mechanical sciences.

Profile: ORCID
Fearuted Publications:

Barillas, M., Ortigosa, R., Martinez-Frutos, J., Bonet, J., & García-González, A. (2026). Design of low-porosity auxetic tessellations with reduced mechanical stress concentrations. Applied Mathematical Modelling.

Jinsheng Wang – Civil Engineering – Best Researcher Award

Published on by Civil Engineering

Professor Jinsheng Wang - Civil Engineering - Best Researcher Award

Beijing Normal University - China

AUTHOR PROFILE

GOOGLE SCHOLAR

🌊 SUMMARY

Professor Jinsheng Wang stands as a pioneering figure in hydrogeology, environmental science, and groundwater pollution control in China. He serves as Professor, Doctoral Supervisor, and Assistant Dean at the College of Water Sciences, Beijing Normal University. As the Head of two national research centers and an expert member of the Ministry of Environmental Protection, his career is marked by multidisciplinary excellence. His leadership in research, consultancy, and higher education has contributed significantly to shaping China’s groundwater management policies. With over two decades of dedicated scholarship and more than 30 landmark publications, Professor Wang's impact extends across academia, government policy, and environmental engineering practices.

🎓 EARLY ACADEMIC PURSUITS

Professor Wang began his academic journey with a Master’s degree in Hydrogeology at Jilin University (1989–1991), later completing his Doctorate in the same field at the same university (1995–1998). His foundational years were shaped by a deep interest in groundwater dynamics, which evolved into a lifelong research commitment. The rigorous training at Jilin equipped him with advanced field knowledge in hydrogeological systems, groundwater modeling, and environmental assessments. His scholarly formation during this period laid the groundwork for his later expertise in numerical simulations, aquifer dynamics, and pollution remediation. He emerged from this phase with a strong academic identity, blending geoscience with environmental applications.

🏢 PROFESSIONAL ENDEAVORS

Currently, Professor Wang holds multiple leadership roles at Beijing Normal University, including Assistant Dean of the College of Water Sciences and Head of two key research centers: the Engineering Research Center of Groundwater Pollution Control and Remediation (Ministry of Education) and the Groundwater Science and Engineering Research Center. He has served as Principal Investigator for national and international research projects sponsored by the Ministry of Science and Technology, Natural Science Foundation of China, and other governmental agencies. His consultancy contributions span emergency environmental response, water conservation planning, and transboundary water studies. He is also a part-time professor at Jilin University, nurturing the next generation of hydrogeologists.

🔬 CONTRIBUTIONS AND RESEARCH FOCUS

Professor Wang’s primary research focus revolves around groundwater renewability, pollution dynamics, and water resource modeling. His work integrates hydrochemical analysis, isotopic tracing, and numerical simulations to investigate groundwater systems in critical areas like the Beijing Plain and Yellow River Basin. He has contributed to the development of evaluation indicators for groundwater renewability, environmental impact modeling, and groundwater vulnerability assessment. His research supports sustainable water policy, enhances disaster management systems, and informs national groundwater legislation. Notably, his findings on aquifer recharge, pollutant migration, and water-rock interactions have advanced both academic literature and practical groundwater management strategies in China.

🏅 ACCOLADES AND RECOGNITION

Recognized nationally and internationally, Professor Wang has been entrusted with prestigious positions and major projects, reflecting his deep trust in scientific integrity and environmental stewardship. He was selected as a core member of the first Expert Group on Emergency Management under China’s Ministry of Environmental Protection. His scholarly outputs have been published in top-tier journals and government white papers, establishing him as a thought leader. His academic books, such as those co-authored on the Wenchuan Earthquake and groundwater in the Yellow River Basin, have become reference texts. His engineering insights are not only valued in academia but have become tools for policymakers and field engineers alike.

🌍 IMPACT AND INFLUENCE

The influence of Professor Wang extends beyond academic citations into real-world environmental and water policy reforms. His research has directly shaped groundwater protection action plans across China and improved early warning systems for environmental emergencies. He has enhanced technical understanding among stakeholders at the local and national levels, facilitating sustainable water use frameworks. Internationally, his collaborations have led to joint conferences, workshops, and peer-reviewed publications that bridge Chinese hydrogeology with global environmental concerns. Through mentorship, he has cultivated young scholars who now carry forward his mission in groundwater sustainability and environmental resilience.

🧬 LEGACY AND FUTURE CONTRIBUTIONS

Looking ahead, Professor Wang is set to lead new frontiers in climate-resilient water management, groundwater recharge modeling, and integrated environmental systems. His vision includes refining vulnerability assessments using AI, promoting international knowledge exchange, and enhancing community-based water governance. His legacy is rooted in a deep understanding of natural systems and a commitment to advancing science for societal benefit. As an academic architect of China’s groundwater policies and a global contributor to environmental geosciences, Professor Wang’s future endeavors promise to leave a profound mark on the planet’s water future.

PUBLICATION

A level set method for structural topology optimization
Authors: MY Wang, X Wang, D Guo
Journal: Computer Methods in Applied Mechanics and Engineering

Molecular determinants of the response of glioblastomas to EGFR kinase inhibitors
Authors: IK Mellinghoff, MY Wang, I Vivanco, DA Haas-Kogan, S Zhu, EQ Dia, ...
Journal: New England Journal of Medicine

Contamination features and health risk of soil heavy metals in China
Authors: H Chen, Y Teng, S Lu, Y Wang, J Wang
Journal: Science of the Total Environment

State of the climate in 2015
Authors: J Blunden, DS Arndt
Journal: Bulletin of the American Meteorological Society

Postoperative biomarkers predict acute kidney injury and poor outcomes after adult cardiac surgery
Authors: CR Parikh, SG Coca, H Thiessen-Philbrook, MG Shlipak, JL Koyner, ...
Journal: Journal of the American Society of Nephrology

High-resolution magnetostratigraphy of the Neogene Huaitoutala section in the eastern Qaidam Basin on the NE Tibetan Plateau, Qinghai Province, China and its implication on …
Authors: X Fang, W Zhang, Q Meng, J Gao, X Wang, J King, C Song, S Dai, Y Miao
Journal: Earth and Planetary Science Letters

A Multicentre Study of Shigella Diarrhoea in Six Asian Countries: Disease Burden, Clinical Manifestations, and Microbiology
Authors: L Von Seidlein, DR Kim, M Ali, H Lee, XY Wang, VD Thiem, DG Canh, ...
Journal: PLoS Medicine

Parity-forbidden transitions and their impact on the optical absorption properties of lead-free metal halide perovskites and double perovskites
Authors: W Meng, X Wang, Z Xiao, J Wang, DB Mitzi, Y Yan
Journal: The Journal of Physical Chemistry Letters

“Color” level sets: a multi-phase method for structural topology optimization with multiple materials
Authors: MY Wang, X Wang
Journal: Computer Methods in Applied Mechanics and Engineering

An inactivated enterovirus 71 vaccine in healthy children
Authors: R Li, L Liu, Z Mo, X Wang, J Xia, Z Liang, Y Zhang, Y Li, Q Mao, J Wang, ...
Journal: New England Journal of Medicine

Naadia Tarek – Rheology of materials – Environmental Leadership in Civil Engineering Award

Published on by Civil Engineering

Naadia Tarek - Rheology of materials - Environmental Leadership in Civil Engineering Award

Polytechnic School of Architecture and Urbanism - Algeria

AUTHOR PROFILE

GOOGLE SCHOLAR

SUMMARY

Naadia Tarek is an accomplished civil engineer and Associate Professor specializing in rheology and mechanics of self-compacting concrete. With extensive academic and research experience, she plays a key role as a lecturer at the Polytechnic School of Architecture and Urbanism (EPAU) and is an active member of the Civil Engineering Laboratory (LBE) at USTHB. Her contributions to material mechanics and concrete optimization have made a significant impact on the field. Naadia is widely recognized for her scientific rigor and has contributed meaningfully to innovative techniques for evaluating and improving the behavior of advanced concrete systems.

EDUCATION

Naadia Tarek earned her University Habilitation in Civil Engineering from USTHB in January 2021. Her academic progression reflects a deep commitment to civil engineering with a focus on materials science. She has pursued advanced research and academic development throughout her educational career, reinforcing her qualifications to lead studies on concrete rheology and optimization. Her educational background forms the foundation for her professional contributions to academia and engineering practice. She is known for integrating experimental design methods into engineering education and research, guiding students and colleagues in evidence-based technical approaches and research methodologies.

PROFESSIONAL EXPERIENCE

Naadia Tarek currently holds the academic rank of Associate Professor (Class A) and serves as a teacher-researcher at EPAU. She contributes actively to the academic environment through both teaching and research while mentoring students and collaborating with peers. Her affiliation with the Civil Engineering Laboratory at USTHB under the Mechanics of Materials research team allows her to engage in cutting-edge experimentation and application. Her experience bridges academic excellence with hands-on material science research, emphasizing interdisciplinary collaboration and field-based innovation. Naadia’s teaching portfolio includes core civil engineering subjects, material characterization, and modern construction techniques.

RESEARCH INTEREST

Naadia Tarek’s research interests lie in the rheology and mechanics of self-compacting concrete (SCC). She specializes in concrete rheology and the use of experimental design techniques for material optimization. Her work contributes to more sustainable, efficient, and resilient construction materials. She is particularly focused on enhancing the flow and mechanical performance of steel fiber-reinforced concrete, using additives such as tuff and marble powders. Her innovative research seeks to reduce environmental impact while improving structural behavior. Naadia’s work combines laboratory experimentation with computational modeling to develop more durable and performance-oriented construction solutions.

AWARD AND HONOR

Naadia Tarek was awarded the University Habilitation in Civil Engineering, a significant academic honor recognizing her advanced expertise and contributions to the field. This milestone underscores her authority in civil engineering education and research. Her recognition as an Associate Professor further validates her academic excellence and commitment to material science innovation. Her research has gained national and international attention, leading to collaborations and publications in high-impact journals. Through her teaching and research, she continues to earn respect and acknowledgment from academic peers and professional organizations dedicated to advancing civil engineering practices.

RESEARCH SKILL

Naadia Tarek demonstrates expertise in advanced experimental design, rheological analysis, and mechanical testing of concrete. Her skills encompass the full cycle of material research—from theoretical formulation to experimental validation. She is proficient in optimizing complex mixtures such as steel fiber-reinforced SCC using statistical and empirical methods. Naadia applies robust methodologies to study the flow behavior, setting characteristics, and structural integrity of new concrete formulations. Her proficiency with lab instrumentation, data interpretation, and simulation models positions her as a leading expert in concrete innovation and applied mechanics.

RECENT PUBLICATIONS

  • Title: Optimization of Steel Fiber-Reinforced Self-Compacting Concrete with Tuff Powder
    Authors: T. Naadia, D. Gueciouer
    Journal: Construction and Building Materials, Vol. 474, Article 140759, 2025

  • Title: Formulation and Characterization of Steel Fiber Reinforced Self-Compacting Concrete (SFRSCC) Based on Marble Powder
    Authors: T. Naadia, D. Gueciouer, Y. Ghernouti
    Journal: Selected Scientific Paper - Journal of Civil Engineering, 2025

  • Title: Rheological and Mechanical Optimization of a Steel Fiber Reinforced Self-Compacting Concrete Using the Design of Experiments Method
    Authors: D. Gueciouer, G. Youcef, N. Tarek
    Journal: European Journal of Environmental and Civil Engineering, Vol. 26, Issue 3, pp. 1097–1117, 2022

  • Title: Development of a Measuring Procedure of Rheological Behavior for Self Compacting Concrete
    Authors: T. Naadia, Y. Ghernouti, D. Gueciouer
    Journal: Journal of Advanced Concrete Technology, Vol. 18, Issue 6, pp. 328–338, 2020

CONCLUSION

Naadia Tarek exemplifies the integration of academic rigor and practical innovation in civil engineering. Her leadership in concrete rheology and experimental optimization has led to significant advancements in material performance and construction practices. As an educator, she inspires future engineers; as a researcher, she advances the frontiers of sustainable building materials. Her academic honors, skilled experimentation, and influential publications distinguish her as a respected figure in her field. Naadia’s ongoing contributions continue to impact the scientific community, positioning her as a leading expert in material behavior and civil infrastructure innovation.

Naoki Takeishi – Fluid Mehanics – Best Researcher Award

Published on by Civil Engineering

Naoki Takeishi - Fluid Mehanics - Best Researcher Award

Kyushu University - Japan

AUTHOR PROFILE

GOOGLE SCHOLAR

PERSONAL INFORMATION

NAOKI TAKEISHI holds a Ph.D. in Biomedical Engineering from Tohoku University, Japan, and currently serves as an Associate Professor at the Department of Mechanical Engineering, Kyushu University, Japan.

PROFESSIONAL EXPERIENCES

Dr. Takeishi's career spans prestigious institutions globally, including roles as a Research Fellow at Tohoku University and Kyoto University, Japan, and as Assistant Professor at Osaka University. He has conducted research visits at MIT, USA, and KTH, Sweden, enriching his expertise in biomechanics and fluid mechanics.

EDUCATION

He completed his undergraduate studies in Mechanical Engineering at Shizuoka University, Japan, followed by a Master's in Biomedical Engineering at Tohoku University, where he later earned his Ph.D.

AWARDS

Dr. Takeishi has received numerous accolades, including the Papers of the Year Award from the Japan Society of Mechanical Engineering and the RYUMON Award for Distinguished Young Researcher in Fluid Mechanics. His achievements also include the Young Investigator Award from the Japan Society of Biorheology and the Rising Star Award at the ESCHM-ISCH-ISB Conference.

RESEARCH AREA

His research focuses on Computational Fluid Mechanics, Computational Biomechanics, Microcirculation, Suspension Rheology, Cell/Membrane Mechanics, Cancer Metastasis, and Cerebral Fluid dynamics.

PROFESSIONAL ENGAGEMENT

Dr. Takeishi actively contributes to advancing knowledge through research and serves in professional societies, enhancing understanding in biomechanics and engineering sciences.

NOTABLE PUBLICATION

Flow of a circulating tumor cell and red blood cells in microvessels 2015 (58)

Computational fluid dynamics assessment of congenital tracheal stenosis 2022 (6)

Enhanced axial migration of a deformable capsule in pulsatile channel flows 2023 (1)

Numerical analysis of viscoelasticity of two-dimensional fluid membranes under oscillatory loadings 2024

Cerebrospinal fluid flow driven by arterial pulsations in axisymmetric perivascular spaces: analogy with Taylor’s swimming sheet 2021 (8)