Mr. Alioune Nacro - Engineering - Best Researcher Award

Laboratoire de mathématiques Nicolas Oresme - France

Author Profile

🎓 Early academic pursuits

Alioune Nacro embarked on his academic journey with a strong foundation in engineering and mechanics. he pursued a diplôme universitaire de technologie (dut) in génie industriel at sn-citec, where he gained hands-on experience in industrial processes and maintenance. building on this, he advanced to a licence 2 in génie électrique et informatique industrielle (geii) at the institut des sciences et techniques de valenciennes. his thirst for knowledge led him to the prestigious esix at the université de caen, where he completed his diplôme d’ingénieur in mécatronique. his academic path was further enriched with a master’s degree in mécanique at the université de caen, ultimately progressing to doctoral studies in mécanique des solides, génie mécanique, productique, transport et génie civil.

🌟 Professional endeavors

Alioune Nacro has built an impressive career through a series of impactful internships and research positions. he gained industrial experience at décathlon cagny, where he managed stock and logistics. later, at global technology, he contributed to the design and implementation of photovoltaic cells on drones, optimizing their energy autonomy. at dracula technologies, he integrated energy harvesting into connected objects and developed innovative electronic systems. his most recent internship at laboratoire nicolas oresme focused on the modeling of raw bricks reinforced with natural fibers, utilizing finite element analysis and fast fourier transform methods.

🧠 Contributions and research focus

Alioune’s research is centered on mechanics, material sciences, and renewable energy solutions. his doctoral work delves into the multiscale fe2 elastoviscoplastic analysis of composite structures, a theoretical and computational study that enhances the understanding of material behavior under different conditions. his expertise extends to numerical simulations, Engineering computational fluid dynamics (cfd), and fluid-structure interaction calculations, employing advanced software such as castem, code aster, and openfoam. his contributions in energy harvesting, particularly the autonomous lighting system powered by renewable energy, highlight his commitment to sustainable technology.

🏆 Accolades and recognition

Alioune’s academic and professional journey has been marked by significant achievements. his innovative research in material science and renewable energy has garnered attention within Engineering academic circles. his hands-on contributions to energy-efficient technologies and advanced modeling techniques have positioned him as a rising researcher in mechanical engineering and applied physics. his ability to bridge theoretical research with practical applications has been recognized by industry professionals and academic mentors alike.

💪 Impact and influence

Alioune’s work has had a profound impact on both the academic and industrial sectors. his research in composite material analysis provides valuable insights for structural engineers and Engineering material scientists. his contributions to energy harvesting and autonomous systems play a crucial role in the development of smart and self-sufficient technologies. through his various projects, he has influenced the integration of renewable energy solutions into real-world applications, setting a precedent for sustainable innovation.

🔬 Legacy and future contributions

As a dedicated researcher, alioune nacro is poised to leave a lasting legacy in the fields of mechanical engineering and renewable energy. his work in numerical simulations and composite material analysis continues to shape future advancements in material science and structural engineering. with his expertise in energy harvesting and smart technology integration, he is expected to contribute to groundbreaking solutions that enhance energy efficiency and sustainability. his future endeavors in academia and industry will likely inspire the next generation of engineers and researchers in these dynamic fields.

Notable Publications

Title: Experimental and modeling study on earthen sediment-based bricks with and without flax fibers: a finite element analysis
Author(s): Alioune Nacro, Daniel Levacher, Mazhar Hussain
Journal: Results in Engineering, 2025

EARLY ACADEMIC PURSUITS

Nangyaley Khan's academic journey commenced with a strong foundation in pre-engineering and science education. He graduated with first division marks from Islamia Collegiate School and University College for Boys, University of Peshawar, setting a solid base for his future endeavors. His bachelor's degree in Civil Engineering from the University of Engineering and Technology Peshawar further honed his skills, with a commendable CGPA of 3.10/4.00.

PROFESSIONAL ENDEAVORS

Nangyaley Khan has accumulated a wealth of professional experience in various capacities. His roles have ranged from a Trainee Engineer at the National Highway Authority and National Engineering Services Pakistan (PVT) Limited to a Trainee Site Supervisor at the Communication and Works Department Peshawar. Currently, he is serving as a Visiting Lecturer in Structural Engineering at the University of Engineering and Technology, Peshawar, where he imparts knowledge to the next generation of civil engineers.

CONTRIBUTIONS AND RESEARCH FOCUS ON STRUCTURE ENGINEERING

Khan's expertise spans advanced engineering materials, concrete fatigue analysis, durability of structures, and corrosion of reinforcing steels. He has a profound interest in sustainable construction practices, including green concrete, bio-cementation, Structure Engineering and the use of bio-based materials. His research has led to significant contributions in the field of bio-based self-healing concrete, fungi/bacteria cultivation, and advanced material testing and characterization techniques such as SEM-EDX, TGA, XRD, XRF, and FTIR.

IMPACT AND INFLUENCE

Nangyaley Khan has authored impactful journal papers, contributing valuable insights to the field of civil engineering. His work on self-healing concrete using Fusarium Oxysporum and Trichoderma Longibrachiatum, and biomimetic self-healing of concrete using Lysinibacillus Boronitolerans, Structure Engineering has been published in reputable journals like Construction and Building Materials and the Journal of Building Engineering. These publications underline his commitment to advancing knowledge in sustainable construction materials and techniques.

LEGACY AND FUTURE CONTRIBUTIONS

As Khan pursues a Ph.D. in Structural Engineering, his aim is to delve deeper into cutting-edge research and developments. His vision includes continuing his work on sustainable infrastructure, enhancing the durability and longevity of construction materials, and exploring innovative solutions for environmental sustainability in construction. His dedication to both teaching and research positions him as a future leader in the field, poised to leave a lasting legacy in civil engineering.