Semnan University - Iran
Professional Profiles
Early Academic Pursuits
Hamed Bahmanabadi embarked on his academic journey at Semnan University, Iran, where he pursued his Bachelor's degree in Mechanical Engineering from 2012 to 2017. His dedication and scholarly pursuits were evident early on, culminating in the 1st Ranked Bachelor Thesis in the Top Thesis Festival of the 2nd National Congress of Internal Combats. Under the guidance of Dr. Mohammad Azadi, Hamed delved into the intricacies of Continuum Damage Mechanics, focusing on the evaluation of this theory in the context of Inconel 713C Nickel-based Superalloy under force-controlled creep loading.
Professional Endeavors
Building upon his undergraduate success, Hamed continued his academic journey at Semnan University, where he earned his Master's degree in Mechanical Engineering from 2017 to 2020. His Master's thesis, titled "Experimental and Numerical Study on Low-cycle Fatigue Behavior of Aluminum Metal Matrix Nanocomposite at Different Temperatures," demonstrated a profound understanding of mechanical behaviors in complex materials. During this period, he also served as a Visiting Researcher at the Chair of Mechanical Engineering at Montanuniversität Leoben, Austria. Under the supervision of Dr. Mohammad Azadi, Prof. Florian Grün, and Dr. Gerhard Winter, Hamed focused on LCF Testing on Aluminum Metal-matrix Nano-composites, showcasing his commitment to international collaboration and research excellence.
Contributions and Research Focus
Hamed Bahmanabadi's research contributions span a diverse range of topics within the field of Mechanical Engineering. His expertise includes HCF, LCF, TMF, Mechanics of Materials, Coating, Materials Characterization, Additive Manufacturing, Mechanical Properties, Corrosion, and Metallurgical Investigation. His noteworthy publications, such as "A comparison between hysteresis stress-strain loops of aluminum alloys and heat-treated nano-composites under thermo-mechanical fatigue loadings," and "Impacts of nano-clay particles and heat-treating on out-of-phase thermo-mechanical fatigue characteristics in piston aluminum-silicon alloys," reflect his commitment to advancing the understanding of materials behavior under various conditions.
Accolades and Recognition
Hamed's academic prowess and research excellence have not gone unnoticed. His Master's thesis received high acclaim, earning him a remarkable score of 19.42 out of 20. Moreover, his Bachelor's thesis secured the top rank in a national competition, showcasing his early promise as a researcher. The numerous peer-reviewed articles authored by Hamed have been published in reputable journals, further solidifying his standing in the academic community.
Impact and Influence
Hamed Bahmanabadi's research has made a significant impact on the field of Mechanical Engineering, particularly in the areas of fatigue behavior, materials characterization, and the application of advanced composites. His work, including the investigation of nano-clay particles' effects on the mechanical properties of piston aluminum-silicon alloys, has practical implications for industries reliant on such materials.
Legacy and Future Contributions
As a burgeoning researcher, Hamed Bahmanabadi's legacy lies in his commitment to rigorous scientific inquiry and international collaboration. His work at Montanuniversität Leoben demonstrates a global perspective, and his diverse research interests signal a readiness to tackle complex challenges. In the future, Hamed is poised to make further contributions to the understanding of material behaviors, with potential applications in industries ranging from aerospace to automotive engineering.
Notable Publications
Modeling of Fatigue Behavior in Pre-corroded AZ31 Magnesium Alloy 2023-12
A comparison between hysteresis stress-strain loops of aluminum alloys and heat-treated nano-composites under thermo-mechanical fatigue loadings 2023-12-26
Impacts of nano-clay particles and heat-treating on out-of-phase thermo-mechanical fatigue characteristics in piston aluminum-silicon alloys 2023-06-22
Cyclic hardening/softening experimental data in nano-clay-composite and aluminum alloy under high-temperature strain-controlled loading 2022
Sensitivity Analysis of Solutioning Time, Ageing Temperature, and Clay Nano-Particles Addition on Hardness of Piston Aluminum-Silicon Alloy using Regression Method 2022-12
Experimental study on thermal expansion coefficient of light aluminum and magnesium alloys by comparing results of dilatometry and zero-force test 2021