Prof. Abbas Akbarzadeh, Sharif University of Technology, Iran
π¨βπ« Prof. Abbas Akbarzadeh, based at Sharif University of Technology in Iran, is a distinguished academic renowned for his significant contributions to metallurgical engineering. Holding a Ph.D. in Metallurgical Engineering from McGill University, his specialization in Hot Deformation and Textural Anisotropy showcases his dedication to advancing the field. π With a rich academic background, including a Post-Doctoral Fellowship, Prof. Akbarzadeh’s research interests span the spectrum of metallurgical engineering, exploring metal forming, thermomechanical processing, and the intricacies of hot deformation and anisotropy. His innovative approach extends to crystallographic texture studies, incorporating cutting-edge technologies like discrete algorithms and additive manufacturing. π οΈπ His diverse research portfolio, which includes unraveling the mysteries of sheet forming processes and investigating nanostructures in Severe Plastic Deformations (SPDs), places him at the forefront of metallurgical advancements. π In addition to his prolific research, Prof. Akbarzadeh is committed to mentorship, having supervised numerous Ph.D. students and guiding the next generation of metallurgical researchers. π¨βππ‘
πΒ Education :
π Prof. Abbas Akbarzadeh is a distinguished academic with a rich educational background. He embarked on his academic journey by pursuing a Ph.D. in Metallurgical Engineering, specializing in Hot Deformation and Textural Anisotropy, at the Department of Materials and Mining Engineering, McGill University, Montreal, Canada, from January 1992 to December 1996. π Following this, he further honed his expertise through a Post-Doctoral Fellowship at the same department from January to September 1997. Prof. Akbarzadeh’s dedication to metallurgical engineering is evident in his extensive academic pursuits, positioning him as a valuable contributor to the field. π¨βπ«π¬
πProfessional Profiles :
Google Scholar
Scopus
π§ Research Interests π¬π :
π¬ Prof. Abbas Akbarzadeh’s research pursuits encompass a dynamic range of interests within the realm of metallurgical engineering. His expertise extends to metal forming and thermomechanical processing, delving deep into the intricacies of hot deformation and anisotropy. π‘οΈ Prof. Akbarzadeh’s focus on crystallographic texture adds a nuanced dimension to his research, exploring the structural intricacies of materials. π Beyond traditional methods, he engages with cutting-edge technologies, incorporating discrete algorithms and modeling techniques. π₯οΈ His forward-thinking approach also embraces the realm of additive manufacturing, reflecting a commitment to innovation in metallurgical processes. Prof. Abbas Akbarzadeh’s diverse research portfolio positions him at the forefront of advancements in metallurgical engineering. π¨βπ¬π
πΒ Research Experience :
π₯οΈΒ Prof. Abbas Akbarzadeh boasts a robust and diverse research experience, delving into the intricacies of metallurgical engineering. His academic pursuits revolve around the hot deformation of metals and alloys, exploring texture and anisotropy, and unraveling the mysteries of sheet forming processes. π οΈ His expertise extends to investigating the mechanical properties of materials, with a keen focus on nanostructure in Severe Plastic Deformations (SPDs). π Prof. Akbarzadeh has actively contributed to the design of new SPDs, pushing the boundaries of material science. π Additionally, his research encompasses the modeling of both hot and cold deformation processes, unraveling the intricacies of developed microstructures and textures. π In the realm of additive manufacturing, he explores the texture and anisotropy of properties, aligning his work with cutting-edge advancements in the field. π¨βπ With a commitment to mentorship, Prof. Akbarzadeh has supervised six graduated Ph.D. students and currently guides the academic journeys of four more, solidifying his impact on the next generation of metallurgical researchers. ππ¨βπ¬
πΒ Publication Impact and Citations :
Scopus Metrics:
- πΒ Publications: 51 documents indexed in Scopus.
- πΒ Citations: A total of 1414 citations for his publications, reflecting the widespread impact and recognition of Prof. Abbas Akbarzadeh’s research within the academic community.
Google Scholar Metrics:
- All Time:
- Citations: 1941 π
- h-index: 24 π
- i10-index: 39 π
- Since 2018:
- Citations: 743 π
- h-index: 16 π
- i10-index: 26 π
π¨βπ« A prolific researcher with significant impact and contributions in the field, as evidenced by citation metrics. ππ¬
Publications Top NotesΒ :
1.Β Microstructure evolution and mechanical properties of AA1100 aluminum sheet processed by accumulative roll bonding
Journal: Materials Science and Engineering: A
Published Year: 2008, Cited By: 220
2.Β Experimental study and FEM analysis of redundant strains in flow forming of tubes
Journal: Journal of Materials Processing Technology
Published Year: 2010, Cited By: 152
3.Β Accumulative spin-bonding (ASB) as a novel SPD process for fabrication of nanostructured tubes
Journal: Materials Science and Engineering: A
Published Year: 2010, Cited By: 140
4.Β Production of high strength AlβAl2O3 composite by accumulative roll bonding
Journal: Composites Part A: Applied Science and Manufacturing
Published Year: 2012, Cited By: 92
5.Β Effect of cooling rate on the microstructure and mechanical properties of microalloyed forging steel
Journal: Journal of Materials Processing Technology
Published Year: 2008, Cited By: 91