University of Seville | Spain
Author Profile
Google Scholar
Early Academic Pursuits
From the beginning of his academic journey, Mr. Kaveh Kolahgar Azari demonstrated exceptional aptitude for materials engineering, excelling in both composite materials and metallurgy. His formal studies established a strong foundation in advanced material science, with a particular focus on composites and coatings. His early theses in hybrid epoxy composites and layered nanocomposites revealed not only his technical precision but also his ability to connect theoretical principles with industrial applications. His academic training combined with international research experiences prepared him for a career that bridges innovation and real-world impact.
Professional Endeavors
Mr. Azari’s professional pathway reflects a seamless blend of teaching, research, and industrial application. He has served as a research assistant professor, guiding projects in casting, heat treatment, and composite materials. His work at leading research centers enabled him to contribute to groundbreaking projects on superalloys, ceramic crucibles, and advanced coatings. Alongside research, he has shared his expertise with students through teaching courses on welding and materials processing, ensuring that future generations of engineers inherit both technical rigor and innovative thinking.
Contributions and Research Focus
His research contributions span a wide range of themes central to materials science. Mr. Azari has explored the mechanical, thermal, and corrosion properties of composites, with an emphasis on ceramic coatings and nanostructured materials. His studies on spark plasma sintering techniques for yttria-stabilized zirconia coatings opened pathways for improved high-temperature applications. He has also worked on radar-absorbing nanocomposites, corrosion-resistant coatings, and bio-inspired hybrid composites. These works underline his deep commitment to solving complex challenges in aerospace, defense, and energy sectors through advanced materials research.
Accolades and Recognition
The quality and depth of Mr. Azari’s work have earned him wide recognition. He has been honored as a top researcher and inventor at both national and institutional levels. His inventions in composite design and hybrid materials have been recognized by elite scientific bodies, reflecting his capacity for innovation. Prestigious awards for research excellence, innovation, and academic performance further establish his reputation as a leading figure in his field. His success is not only measured by titles but by the respect he commands among peers for his contributions to advancing material technologies.
Impact and Influence
Mr. Azari’s influence extends beyond publications and patents into practical industrial advancements. His collaborative research has enhanced the production and performance of superalloys, thermal barriers, and advanced composites. His innovations in fracture toughness, hybrid epoxy designs, and high-performance ceramics have provided tangible benefits to aerospace and manufacturing industries. Moreover, his participation in national and international conferences highlights his role in shaping scholarly discussions and mentoring young researchers.
Legacy and Future Contributions
Looking ahead, Mr. Azari is poised to leave a lasting legacy in the field of advanced materials. His body of work already serves as a cornerstone for research in composites and coatings, while his collaborative projects promise to inspire future explorations in nanomaterials and energy-efficient technologies. His ongoing research in plasma-catalytic processes, cloud seeding materials, and sustainable composites reflects his forward-looking vision of science as a solution to global challenges. His legacy will be defined not only by scientific discoveries but also by his dedication to building bridges between academia, industry, and innovation.
Publications
Enhancement of High Temperature Properties and Adhesion of Yttria-Stabilized Zirconia Thermal Barrier Coating on Inconel 713lc Superalloy Using Spark Plasma Sintering Method
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Authors: Kaveh Kolahgar Azari, Ali Alizadeh, Hossein Momeni, Ángela Gallardo López
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Journal: Surface and Coatings Technology
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Year: 2025
Optimization of Microhardness in Nanostructured Thermal Barrier Coatings Using Spark Plasma Sintering (SPS) and Taguchi Design
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Authors: Kaveh Kolahgar Azari, Ali Alizadeh, Hossein Momeni, Angela Maria Gallardo Lopez
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Journal: Advanced Ceramics Progress (ACERP)
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Year: 2024
Investigating the Phenomenon of Flutter, Mechanical and Microstructural Properties of Layered Composite of Aluminum Sheet with an Epoxy Matrix Reinforced with Carbon Fibers
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Authors: Kaveh Kolahgar Azari, Amir Hossein Sayadi Kelemi, Ali Alizadeh, Hamid Omidvar
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Journal: Advanced Ceramics Progress (ACERP)
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Year: 2023
An Investigation on Dynamical and Mechanical Properties of Hybrid Composite of Epoxy Matrix Reinforced with S-glass Fiber and Aluminum Sheet
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Authors: K. Kolahgar Azari, A. Alizadeh, H. Omidvar, A. Sayadi Kelemi
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Journal: Journal of Environmental Friendly Materials (Scientific Research)
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Year: 2023
Investigating Research on Improving Oxidation Resistance and Erosion Properties of ZrB₂/SiC Composites
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Authors: K. Kolahgar Azari, A. Alizadeh, A. Sayadi
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Journal: Journal of Environmental Friendly Materials (Scientific Research)
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Year: 2023
Conclusion
Mr. Kaveh Kolahgar Azari exemplifies the qualities of a researcher whose contributions resonate across both academic and industrial landscapes. His academic brilliance, innovative research, and commitment to advancing material technologies position him as a leader in his field. Through his sustained efforts, he continues to enrich the scientific community while addressing pressing global challenges. His journey reflects not just personal success but a broader mission to transform research into meaningful societal impact.