University of Anbar | Iraq
Mr. Ahmed Yasin Ali is a Lecturer in the Mechanical Engineering Department at the University of Anbar, specializing in Mechanical Engineering and Applied Mechanics. He holds an M.Sc. in Mechanical Engineering with a focus on applied mechanics and has significant expertise in numerical methods, FEM (Finite Element Method), and engineering analysis. With a solid foundation in mechanical design and vibration analysis, Ahmed is committed to advancing engineering education and research.
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Early Academic Pursuits π
Ahmed’s academic journey began at the University of Anbar, where he earned both his B.Sc. and M.Sc. degrees in Mechanical Engineering with a specialization in Applied Mechanics. His academic performance and research interests shaped his future career as a lecturer and researcher in the same institution. His early academic years reflected his passion for mechanics and his drive to contribute to engineering advancements.
Professional Endeavors πΌ
Since 2023, Ahmed has served as a Lecturer and Researcher in the Mechanical Engineering Department at the University of Anbar. His professional role involves teaching subjects such as Mechanical Drawing, Engineering Numerical Methods, FEM/Tutorial, and Engineering Analysis. Additionally, his commitment to research has resulted in significant contributions to the fields of dynamic stability, vibration analysis, and nonlinear dynamics.
Contributions and Research Focus π¬
Ahmed’s research primarily focuses on the nonlinear dynamic stability of orthotropic functionally graded materials (FGM), especially in the context of vibration and stability analysis of cylindrical shells and plates. His work on shear deformable material toroidal shell segments and the vibration of graphene-reinforced composites has contributed valuable insights into material behavior under thermal effects and boundary conditions. His focus is on advancing applied mechanics through both theoretical and numerical research methods.
Impact and Influence π
Ahmed’s research on nonlinear vibrations and dynamic stability in mechanical systems has contributed significantly to the field of applied mechanics. His work is influencing the design and analysis of FGM-based structures in engineering applications, providing more reliable and efficient methods for understanding material behavior and structural integrity under complex loading conditions. His research is particularly influential in the development of advanced materials used in aerospace and automotive industries.
Research Skills π§
Ahmed possesses strong skills in numerical methods, Finite Element Modeling (FEM), and dynamic analysis. His proficiency with software like MATLAB, ABAQUS, and ANSYS allows him to perform complex simulations on FGM materials and vibrational systems. His quantitative research skills are complemented by a deep understanding of applied mechanics, which aids in modeling mechanical systems and analyzing material behavior under various conditions.
Teaching Experience π§βπ«
As a lecturer at the University of Anbar, Ahmed teaches a variety of courses, including Mechanical Drawing, Engineering Numerical Methods, FEM/Tutorial, and Mechanical Drawing LAB. His teaching experience reflects his commitment to student development and engineering education. Through his courses, he imparts valuable practical knowledge and theoretical understanding to students, preparing them for careers in mechanical engineering.
Legacy and Future Contributions π
Ahmedβs legacy lies in his contributions to mechanical engineering and applied mechanics. As a researcher, he is paving the way for more advanced, efficient materials and structural systems in engineering. His future contributions will focus on further innovating mechanical design through nonlinear dynamic analysis and FGM material applications. As he continues his work, he is poised to make even greater strides in engineering education and scientific research, benefiting future generations of engineers.
Publication top notes
Nonlinear dynamic buckling of a simply supported imperfect nanocomposite shear deformable plate under the effect of in-plane velocities
- Authors: Ahmed Y. Ali; Hamad M. Hasan; Farag M. Mohammed
Journal: Communications in Nonlinear Science and Numerical Simulation
Year: 2024
Nonlinear Forced Vibration of Functionally Graded Graphene-Reinforced Composite (FG-GRC) Laminated Cylindrical Shells under Different Boundary Conditions with Thermal Repercussions
- Authors: Hamad M. Hasan; Ahmed Y. Ali
Journal: International Journal of Structural Stability and Dynamics
Year: 2024
Non-linear large amplitude vibration of orthotropic FGM convex and concave toroidal shell segments including the damping effect using the shear deformation theory
- Authors: Ahmed Y. Ali; Hamad M. Hasan
Journal: Thin-Walled Structures
Year: 2022
Nonlinear dynamic stability of an imperfect shear deformable orthotropic functionally graded material toroidal shell segments under the longitudinal constant velocity
- Authors: Ahmed Y. Ali; Hamad M. Hasan
Journal: Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science
Year: 2019