Tag: Materials Science Honor Award

Tarek Naadia | Materials Science | Sustainable Engineering Leadership Award

Published on by World Science Awards

Dr. Tarek Naadia | Materials Science | Sustainable Engineering Leadership Award

Lecturer researcher from Polytechnic School of Architecture and Urban Planning EPAU, Algeria

Dr. NAADIA Tarek is an accomplished Associate Professor in Civil Engineering with a specialization in the mechanics and rheology of self-compacting concrete. Holding a University Habilitation awarded in 2021 from USTHB, she is a respected teacher-researcher affiliated with the Polytechnic School of Architecture and Urbanism (EPAU) and a key member of the Civil Engineering Laboratory (LBE). Her work focuses on advancing sustainable construction materials, particularly optimizing the performance and flow properties of steel fiber reinforced self-compacting concrete using innovative experimental design techniques. Dr. Tarek’s research outputs have been published in high-impact journals, emphasizing both the mechanical and rheological characteristics of eco-friendly concrete formulations incorporating industrial by-products such as tuff and marble powders. She combines rigorous scientific methodology with practical applications that support the development of greener, more durable building materials. Throughout her academic career, Dr. Tarek has demonstrated a commitment to excellence in research, teaching, and collaborative innovation within the civil engineering community. Her expertise aligns well with global efforts to promote sustainability in infrastructure development and materials science. Dr. Tarek’s contributions position her as a valuable leader in sustainable engineering research, with a growing impact on both regional and international levels.

Professional Profile

Education

Dr. NAADIA Tarek completed her highest academic qualification with a University Habilitation in Civil Engineering, awarded on January 21, 2021, at the University of Science and Technology Houari Boumediene (USTHB). This qualification represents a significant academic milestone, signifying her capability to conduct independent research, supervise doctoral students, and contribute original knowledge to her field. Her educational journey has been deeply rooted in civil engineering, with a particular focus on materials science and mechanics. Although specific earlier degrees are not listed, the habilitation level indicates advanced expertise beyond the doctoral level, underscoring her extensive research experience and academic maturity. The habilitation also reflects a comprehensive understanding of both theoretical foundations and applied techniques related to concrete rheology, material optimization, and sustainable construction technology. Her educational background equips her with the tools necessary to drive innovation in civil engineering and to influence the development of sustainable materials that address modern construction challenges. The advanced training and scholarship involved in attaining the habilitation have prepared her for a leading role in academia and research, enabling her to contribute effectively to the scientific community and to mentor future engineers.

Professional Experience

Dr. NAADIA Tarek currently serves as an Associate Professor (Class A) and a Teacher-Researcher at the Polytechnic School of Architecture and Urbanism (EPAU). She is also an active member of the Civil Engineering Laboratory (LBE) at USTHB, where she engages in research on the mechanics of materials, focusing particularly on self-compacting concrete. Her professional role involves a blend of teaching, laboratory research, and project management. As a lecturer, she contributes to civil engineering curricula, imparting knowledge on construction materials, experimental techniques, and sustainability concepts. Within the laboratory, she conducts experimental research that integrates mechanical testing and rheological measurement methods to optimize concrete formulations. Dr. Tarek’s work includes the development of new procedures for measuring concrete flow behavior and the application of design of experiments (DOE) methodologies to fine-tune mix designs for performance and environmental benefits. Her position requires collaboration with fellow researchers, students, and industry stakeholders to ensure practical relevance and innovation. Over time, she has established herself as a key figure in her department, contributing to research projects and academic advancements that enhance sustainable engineering practices in Algeria and beyond.

Research Interests

Dr. NAADIA Tarek’s primary research interests lie at the intersection of civil engineering materials, rheology, and sustainability. She specializes in the study and optimization of self-compacting concrete (SCC), focusing on both its rheological (flow) properties and mechanical performance. Her work emphasizes the development of sustainable concrete formulations that incorporate industrial by-products such as marble and tuff powders, which serve as partial replacements for traditional cement or aggregates. This approach not only improves the environmental footprint of concrete but also enhances its durability and functionality. A significant aspect of her research involves applying the design of experiments (DOE) methodology to systematically optimize the composition and performance of steel fiber reinforced self-compacting concrete (SFRSCC). This method allows for efficient exploration of multiple variables and their interactions, facilitating robust improvements in concrete quality. Dr. Tarek also investigates the rheological behavior of concrete mixtures, developing new measurement procedures to better understand their flow characteristics under various conditions. Her research contributes to sustainable construction practices by promoting materials that reduce resource consumption, waste, and energy use while improving structural integrity and longevity.

Research Skills

Dr. NAADIA Tarek possesses a comprehensive skill set tailored to experimental civil engineering research, particularly in concrete materials science. She is proficient in rheological testing methods for assessing the flow behavior of self-compacting concrete, including the design and implementation of novel measurement procedures. Her expertise extends to mechanical characterization techniques for fiber-reinforced composites, enabling detailed analysis of strength, durability, and deformation properties. She employs advanced statistical tools, notably the design of experiments (DOE) approach, to optimize material formulations systematically, which enhances research efficiency and reliability. This methodological rigor allows her to manage complex variables and interactions within concrete mix designs, leading to reproducible and scalable results. Additionally, Dr. Tarek is skilled in interpreting data to improve concrete sustainability by integrating alternative materials such as marble and tuff powders. Her laboratory experience is complemented by academic teaching, where she applies her research skills to train future engineers in experimental and analytical techniques. Collectively, these competencies support her ability to innovate within sustainable engineering and to drive research that meets both academic standards and practical industry needs.

Awards and Honors

While the CV provided does not specify particular awards or honors received by Dr. NAADIA Tarek, her attainment of the University Habilitation itself represents a prestigious academic recognition. The habilitation is a significant scholarly achievement that acknowledges her capability for independent research and academic leadership. This advanced qualification is often regarded as a benchmark of excellence within many academic systems, highlighting her contributions to civil engineering research and education. Furthermore, Dr. Tarek’s publications in high-impact journals reflect peer recognition of the quality and relevance of her work. Her growing portfolio of research articles and her position as an Associate Professor at a leading institution further attest to her professional esteem and influence within her field. For future career development, formal awards for sustainable engineering or leadership in research could complement her credentials and enhance her profile internationally. Participation in academic societies, editorial boards, or conference leadership roles may also lead to additional honors, reinforcing her position as a research leader.

Conclusion

Dr. NAADIA Tarek is a promising and dedicated civil engineering researcher with a clear focus on sustainable construction materials. Her expertise in the rheology and optimization of self-compacting concrete, combined with her use of innovative experimental design methods, positions her at the forefront of sustainable materials research. Her academic qualifications, including a University Habilitation, and her role as an Associate Professor underscore her capability for independent research and leadership within academia. Although further international collaboration and formal recognition through awards could strengthen her profile, her existing contributions demonstrate significant potential for advancing sustainable engineering practices. Dr. Tarek’s work is particularly relevant to the global imperative of reducing environmental impacts in construction, supporting the development of eco-friendly materials that are both durable and efficient. With continued research productivity and expanded engagement with the international engineering community, she is well positioned to become a leading figure in sustainable engineering research and innovation.

Publications Top Notes

  • 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, Volume 26, Issue 3, Pages 1097-1117
    Year: 2022
    Citations: 28

  • 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, Volume 18, Issue 6, Pages 328-338
    Year: 2020
    Citations: 4

  • Rheology-compactness-granularity correlations of self-compacting concretes
    Author: T Naadia
    Year: 2014
    Citations: 1

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

  • 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
    Year: 2025

  • Effect of the aggregates size on the rheological behaviour of the self compacting concrete
    Authors: T Naadia, F Kharchi
    Journal: International Review of Civil Engineering (IRECE), Volume 4, Issue 2, Pages 92-97
    Year: 2013






	


	

	






	
	

		


Kouider MADANI | Materials Science | Excellence in Research
			

				Published on  by World Science Awards			

		
	


	

		
Prof. Kouider MADANI | Materials Science | Excellence in Research


Teacher/Researcher at Djillali Liabès University of Sidi Bel Abbès, Algeria.


































































































































































Kouider Madani is a distinguished Professor at Université de Sidi Bel Abbes, specializing in materials science and mechanical engineering. His academic journey includes a Doctorate in Material Sciences and significant roles in the university, including Head of the Mechanical Engineering Department and various curriculum responsibilities. Madani’s research focuses on the characterization, durability, and repair of composite materials, with notable contributions published in high-impact journals such as the Journal of Composite and Journal of Failure Analysis and Prevention. His work addresses critical areas like the effect of aging on composites and adhesive technologies. Madani has demonstrated strong leadership and organizational skills through his administrative roles, including overseeing curriculum development and departmental management. For enhanced recognition, expanding international collaborations and diversifying publication venues could further amplify his research impact. His achievements reflect a strong potential for the Research for Excellence in Research award.




































Profile









































































































































Education






















































Kouider Madani’s educational background reflects a strong foundation in materials science and mechanical engineering. He earned his Habilitation à Diriger des Recherches from Université de Sidi Bel Abbes in December 2008, signifying his advanced qualifications for supervising doctoral research. Prior to this, he completed his Doctorate in Materials Science at the same institution in September 2007, graduating with high honors. His academic journey began with a Magister in Materials Science in November 1998 and an Engineering Degree in Mechanical Engineering in October 1994, both from Université Djillali Liabes de Sidi Bel Abbes. These degrees established his expertise in mechanical and materials engineering, providing a solid base for his subsequent research and academic career.


























Professional Experience




































































Kouider Madani has a distinguished career in academia, currently serving as a Professor at Université de Sidi Bel Abbes. His professional journey began in October 1994 as an Assistant Technical Lecturer at Institut de Génie Mécanique, Université Djillali Liabes, progressing through roles such as Maître-Assistant and Maître de Conférences. Since December 2013, he has held the position of Professor in the Department of Mechanical Engineering. Madani’s expertise lies in material sciences, focusing on the characterization, durability, and repair of composite materials. He has led several administrative roles, including Head of the Mechanical Engineering Department and responsible for curriculum development. His leadership extends to managing the Science and Technology domain, reflecting his broad influence in academia. Throughout his career, Madani has been involved in significant research projects and has published extensively in reputable journals, demonstrating his commitment to advancing knowledge in his field.
























Research Interest






























































































































































































































































Kouider Madani’s research interests primarily focus on the characterization and durability of adhesive and composite materials. His work explores the mechanics of bonded joints, including the repair of damaged structures using composite patch techniques. He is particularly interested in understanding the effects of aging on the mechanical and physical properties of composites and adhesives, as well as studying delamination and debonding phenomena in these materials. His research contributes to improving the reliability and performance of composite structures in various engineering applications. Noteworthy areas of his investigation include the impact of environmental conditions on adhesive strength and the development of advanced analytical methods to assess failure mechanisms. Through his studies, Madani aims to enhance the longevity and efficiency of composite materials, addressing critical challenges in materials science and engineering. His research has been published in leading journals and significantly impacts the field of mechanical engineering.












 Research Skills
















































Kouider Madani’s research skills are characterized by his deep expertise in materials science and mechanical engineering. His research primarily focuses on the characterization and durability of adhesive bonds and composite materials, including the repair of damaged structures using composite patching techniques. Madani has demonstrated proficiency in studying the effects of aging on the mechanical and physical properties of composites, as well as investigating delamination and adhesion failures. His technical skills are evidenced by his significant publications in reputable journals, where he applies advanced analytical methods such as isogeometric analysis and parametric cohesive zone modeling. Additionally, Madani’s extensive experience in experimental and numerical investigations, including impact behavior studies and energy release rate variations, highlights his ability to integrate theoretical knowledge with practical applications. His methodological rigor and innovative approaches underscore his capabilities in advancing the field of materials science and engineering.


Award and Recognition












Kouider Madani has garnered significant recognition throughout his distinguished career in mechanical engineering and materials science. As a Professor at Université de Sidi Bel Abbes, his research has notably advanced the fields of composite materials and adhesive technologies. His contributions are highlighted by impactful publications in renowned journals, including the Journal of Composite and the Journal of Failure Analysis and Prevention. His leadership extends beyond research; he has effectively managed various administrative roles, including Head of the Mechanical Engineering Department and responsible for curriculum development. These roles underscore his dedication to both academic excellence and institutional development. His consistent pursuit of innovative solutions in material characterization and durability, coupled with his administrative acumen, reflects his commitment to advancing scientific knowledge and education. Madani’s achievements affirm his position as a leading figure in his field, deserving of recognition for his exceptional contributions and leadership.


Conclusion










Kouider Madani is a strong candidate for the Research for Excellence in Research award due to his extensive experience, impactful research, and leadership in academic administration. His work in materials science, particularly in composites and adhesives, is both relevant and innovative. To further enhance his candidacy, he could focus on expanding international collaborations, diversifying his publication outlets, and seeking additional funding opportunities. Overall, his contributions to the field and leadership roles position him as a deserving candidate for this award.


















































Publications Top Notes












    

  1. Title: Predicting Damage in Notched Functionally Graded Materials Plates Through Extended Finite Element Method Based on Computational Simulations

      

    • Authors: Siguerdjidjene, H., Houari, A., Madani, K., Merah, A., Campilho, R.D.S.G.
      • 

    • Journal: Frattura ed Integrita Strutturale
      • 

    • Year: 2024
      • 

    • Volume: 18
      • 

    • Issue: 70
      • 

    • Pages: 1–23
      • 

    

    2. 

  2. Title: Numerical Analysis of the Geometrical Modifications Effects on the Tensile Strength of Bonded Single-Lap Joints

      

    • Authors: Metehri, A., Madani, K., Campilho, R.D.S.G.
      • 

    • Journal: International Journal of Adhesion and Adhesives
      • 

    • Year: 2024
      • 

    • Volume: 134
      • 

    • Article ID: 103814
      • 

    

    3. 

  3. Title: Experimental Investigation Into the Tensile Strength Post-Repair on Damaged Aluminium 2024-T3 Plates Using Hybrid Bonding/Riveting

      

    • Authors: Merah, A., Houari, A., Madani, K., Yahia, C.Z., Campilho, R.D.S.G.
      • 

    • Journal: Acta Mechanica et Automatica
      • 

    • Year: 2024
      • 

    • Volume: 18
      • 

    • Issue: 3
      • 

    • Pages: 514–525
      • 

    

    4. 

  4. Title: Experimental and Numerical Investigation of Impact Behavior in Honeycomb Sandwich Composites

      

    • Authors: Djellab, A., Chellil, A., Lecheb, S., Kebir, H., Madani, K.
      • 

    • Journal: Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials: Design and Applications
      • 

    • Year: 2024
      • 

    • Volume: 238
      • 

    • Issue: 7
      • 

    • Pages: 1342–1357
      • 

    • Citations: 2
      • 

    

    5. 

  5. Title: Experimental and Numerical Analysis of the Fracture Behavior of an Epoxy-Based Marine Coating Under Static Tension and Accelerated Aging Effect in NaCl Solution

      

    • Authors: Madani, Y., Madani, K., Touzain, S., Cohendoz, S., Peraudeau, B.
      • 

    • Journal: Journal of the Brazilian Society of Mechanical Sciences and Engineering
      • 

    • Year: 2024
      • 

    • Volume: 46
      • 

    • Issue: 6
      • 

    • Article ID: 379
      • 

    

    6. 

  6. Title: Analysis of the Performance of Carbon Fiber Patches on Improving the Failure Strength of a Damaged and Repaired Plate

      

    • Authors: Sebaibi, N.H., Mhamdia, R., Madani, K., Djabbar, S.C.H., Campilho, R.D.S.G.
      • 

    • Journal: Journal of the Brazilian Society of Mechanical Sciences and Engineering
      • 

    • Year: 2024
      • 

    • Volume: 46
      • 

    • Issue: 6
      • 

    • Article ID: 347
      • 

    

    7. 

  7. Title: Experimental and Numerical Studies of Bonded Repair of Notched Laminates Composites

      

    • Authors: Belhouari, M., Benkheira, A., Madani, K., Campilho, R.D.S.G., Gong, X.L.
      • 

    • Book Title: Fracture Mechanics: Advances in Research and Applications
      • 

    • Year: 2024
      • 

    • Pages: 195–220
      • 

    

    8. 

  8. Title: Introduction to Fracture Mechanics

      

    • Authors: Campilho, R.D.S.G., Madani, K., Belhouari, M.
      • 

    • Book Title: Fracture Mechanics: Advances in Research and Applications
      • 

    • Year: 2024
      • 

    • Pages: 1–15
      • 

    

    9. 

  9. Title: Analysis of the Performance of the Composite Repair Patch for the Mechanical Resistance in Fatigue and in Tension of a Damaged Plate

      

    • Authors: Madani, K., Djebbar, S.C., Amin, H., Feaugas, X., Campilho, R.D.S.G.
      • 

    • Book Title: Fracture Mechanics: Advances in Research and Applications
      • 

    • Year: 2024
      • 

    • Pages: 155–194
      • 

    

    10. 

  10. Title: Fracture Mechanics: Advances in Research and Applications

      

    • Authors: Campilho, R.D.S.G., Madani, K., Belhouari, M.
      • 

    • Year: 2024
      • 

    • Pages: 1–409
      • 

    

    11.