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I am a passionate researcher and engineer with a focus on manufacturing, production, and non-destructive testing (NDT) of composite materials. I completed my PhD in Mechanical Engineering at Malek Ashtar University of Technology, where my research centered on the health monitoring of cryogenic composite vessels, specifically Type 5, using advanced thermography techniques. My work involved exploring the role of nanoclay in epoxy resin liners for cryogenic tanks, which led to significant findings in enhancing mechanical properties, permeability, and fracture toughness.
My expertise spans a range of NDT and non-destructive evaluation (NDE) methods, including pulse thermography, lock-in thermography, and FEM simulation. I have applied these techniques in the study of composite patches, honeycomb structures, and other aerospace materials. In addition to my academic work, I have gained hands-on experience as a project leader and assistant on several research projects at the University of Tehran's Welding and Nondestructive Testing Applied Research Center. These projects involved delamination defect evaluation in composite materials, as well as the use of thermal imaging for defect detection in metals and composites.
I am also skilled in the design and manufacture of industrial machines, with proficiency in tools like Abaqus, SolidWorks, and familiar with Catia and MATLAB. Over the years, I have developed a strong background in both experimental and numerical analysis, aiming to contribute to advancements in the field of materials testing, manufacturing processes, and aerospace applications.
Research/Perfection Interests:
Mechanical - Thermal FEM Simulation and Structural Analysis
Pulse & Mini Pulse Thermography
Non-destructive Testing & Evaluation (NDT/NDE) / Thermography
Composite Materials / Repairing Composite Structures
Honeycomb Structures and Aerospace Applications
Industrial Machine Design and Manufacturing
