Best Researcher Award

Brahim Safi
M’hamed Bougara University of Boumerdes, Algeria

Brahim Safi
Affiliation	M’hamed Bougara University of Boumerdes
Country	Algeria
Scopus ID	42262506000
Documents	58
Citations	772
h-index	12
Subject Area	Wastes Recycling and Recycled Ceramic Materials
Event	International Research Awards on Network Science & Graph Analytics
ORCID	0000-0003-2565-8135

Brahim Safi is an Algerian researcher affiliated with M’hamed Bougara University of Boumerdes whose academic work focuses on waste recycling technologies, recycled ceramic materials, sustainable construction materials, and environmentally responsible manufacturing processes. His research portfolio demonstrates a sustained contribution to the advancement of circular economy principles through the valorization of industrial by-products and recycled resources. The scope of his publications reflects interdisciplinary engagement across materials engineering, environmental sustainability, and industrial innovation.[1]

Abstract

This article presents an overview of the scholarly achievements of Brahim Safi and evaluates his suitability for recognition through the Best Researcher Award. His research emphasizes sustainable material development, industrial waste recovery, recycled ceramic applications, and environmentally conscious engineering solutions. Through peer-reviewed publications, collaborative research activities, and measurable citation impact, he has contributed to the growing body of knowledge supporting resource efficiency and circular manufacturing systems.[2]

Keywords

Waste Recycling, Recycled Ceramic Materials, Sustainable Construction, Circular Economy, Environmental Engineering, Materials Science, Industrial By-products, Resource Recovery.

Introduction

The increasing global emphasis on sustainable development has created significant demand for innovative materials and recycling technologies. Researchers working in this field play a crucial role in reducing environmental burdens while supporting industrial productivity. Brahim Safi’s work addresses these challenges through investigations into recycled materials, waste-derived resources, and sustainable engineering solutions that can be integrated into modern industrial practices.[3]

Research Profile

According to scholarly indexing records, Brahim Safi has produced 58 indexed documents and accumulated 772 citations with an h-index of 12. His research activities span materials engineering, waste recycling, cementitious composites, ceramic materials, and environmentally sustainable manufacturing. The breadth of his work demonstrates a consistent commitment to addressing industrial and environmental challenges through scientific investigation and technological innovation.[1]

Research Contributions

Safi’s contributions are characterized by the development of value-added applications for industrial residues and recycled resources. His investigations into ecological cement mortars, waste slag utilization, recycled foundry sand, bio-based composites, and corrosion-resistant coatings provide practical pathways for reducing environmental impacts while maintaining engineering performance standards.[4][5]

Publications

• Synthesis of TiC Nanocarbide from Recycled Machined Ti Chips and Graphite Powder via Mechanical Alloying (2026).
• Sustainable Bio-Based Rosin–Epoxy Composites: From Pine Forests to Polymers via Processing–Structure–Property Optimization (2026).
• Used Foundry Sand as a Replacement for Sand in Concrete (2026).
• An Ecological Cement Mortar Produced by Using Nanosilica and High Content of Metallurgical Waste Slag (2025).
• Synthesis of Resin from Alfa Stem to Applied as an Adhesive Corrosion-Resistant Coating (2025).

Research Impact

The research output of Brahim Safi has contributed to scientific understanding in sustainable materials engineering and waste valorization. His citation record indicates continued academic engagement with his findings. The practical orientation of his studies further enhances their relevance to industry stakeholders seeking environmentally responsible material solutions and circular economy implementation strategies.[1][4]

Award Suitability

The candidature of Brahim Safi for the Best Researcher Award is supported by his sustained publication activity, measurable citation performance, interdisciplinary research portfolio, and contributions to sustainability-focused engineering research. His work aligns with contemporary scientific priorities emphasizing resource efficiency, environmental stewardship, and innovation in recycled materials, making him a noteworthy candidate for recognition within international academic forums.[2]

Conclusion

Brahim Safi has established a significant academic profile through research dedicated to sustainable materials, recycling technologies, and industrial waste utilization. His scholarly contributions demonstrate both scientific rigor and practical relevance. The combination of publication productivity, citation impact, and commitment to environmentally responsible engineering supports his recognition within the International Research Awards on Network Science & Graph Analytics framework.

External Links

• ORCID Profile
• Scopus Author Profile
• Google Scholar Profile
• Award Website

References

1. Elsevier. (n.d.). Scopus author details: Brahim Safi, Author ID 42262506000. Scopus.
   https://www.scopus.com/authid/detail.uri?authorId=42262506000
2. ORCID. (n.d.). Brahim Safi Research Profile.
   https://orcid.org/0000-0003-2565-8135
3. Materials Circular Economy. (2026). Synthesis of TiC Nanocarbide from Recycled Machined Ti Chips and Graphite Powder via Mechanical Alloying.
   https://doi.org/10.1007/s42824-026-00243-7
4. Proceedings of the Institution of Mechanical Engineers, Part L. (2026). Sustainable Bio-Based Rosin–Epoxy Composites.
   https://doi.org/10.1177/14644207261432822
5. Transportation Research Record. (2025). An Ecological Cement Mortar Produced by Using Nanosilica and High Content of Metallurgical Waste Slag.
   https://doi.org/10.1177/03611981251342234
6. Proceedings of the Indian National Science Academy. (2025). Synthesis of Resin from Alfa Stem to Applied as an Adhesive Corrosion-Resistant Coating.
   https://doi.org/10.1007/s43538-025-00388-0