Mr. Amirali Milani | Biomedical Engineering | Best Researcher Award

Researcher at Tarbiat Modares University, Iran

amirali milani is a mechanical engineer from Iran with expertise in manufacturing and biomedical engineering. He earned his M.Sc. in Mechanical Engineering from Tarbiat Modares University 🎓, collaborating with Ontario Tech University. With hands-on experience in medical device quality control, high-speed 3D printing, and additive manufacturing, he has worked at Ayria Daroo Plasma and Ayhan AM Co. ⚙️. His research delves into advanced manufacturing techniques, particularly on Inconel 625 for high-temperature applications 🔬. Passionate about innovation, he combines technical proficiency with regulatory compliance knowledge, ensuring safety and efficiency in engineering solutions. 🚀

Professional Profile 

• orcid
• Google Scholar

Education 📚

• M.Sc. Mechanical Engineering – Manufacturing (2020–2024) 🎓
  • Tarbiat Modares University, Iran
  • Supervisors: Prof. Amir H. Behravesh (Tarbiat Modares University), Prof. Ghaus Rizvi (Ontario Tech University)
• B.Sc. Mechanical Engineering – Manufacturing (2015–2020) 🎓
  • Babol Noshirvani University of Technology, Iran
  • Supervisor: Prof. Mohammad Bakhshi-Jooybari

Work Experience 🏢

• Biomedical Engineering Team Supervision – Technical Manager (2023–Present) 🏥
  • Ayria Daroo Plasma, Tehran, Iran
  • Managed quality control for medical devices 🏥
  • Ensured ISO 13485, CE, and FDA compliance ✅
  • Oversaw plasmapheresis and biomechanical devices ⚙️
  • Streamlined device testing and documentation 📑
• Mechanical Design Engineer (2023) 🖨️
  • Ayhan AM Co., Tehran, Iran
  • Redesigned high-speed commercial 3D printers 🏗️
  • Debugged & modified firmware (Marlin2) 💻
  • Provided technical consultation for FDM & DLP printing 🎯
• Intern – Rotary Equipment Section (2019) 🔬
  • Niroo Research Institute, Tehran, Iran
  • Researched corrosion behavior of Inconel 625 under high temperatures 🔥
  • Conducted compression tests on Inconel 625 compositions ⚡
  • Analyzed additive manufacturing techniques (SLM, EBM) 🏭

Professional Development 🚀

amirali milani has continuously expanded his expertise in advanced manufacturing, biomedical engineering, and additive manufacturing. He has played a key role in quality control and regulatory compliance for medical devices, ensuring patient safety and adherence to international standards 🌍. His work in 3D printing involves optimizing commercial printers and modifying firmware for precision and efficiency 🔧. With a deep understanding of material properties and mechanical behavior, he contributes to innovation in engineering applications. His internship experience strengthened his knowledge of corrosion resistance and mechanical testing, enhancing his ability to design and evaluate high-performance materials. 🏆

Research Focus 🔬

amirali milani specializes in manufacturing engineering, with a focus on biomedical devices and additive manufacturing. His research investigates the mechanical behavior and corrosion resistance of Inconel 625 under extreme conditions, contributing to advancements in aerospace, energy, and medical applications 🚀. He is also experienced in 3D printing technologies like FDM and DLP, optimizing printing processes for enhanced precision and material efficiency. His expertise extends to medical device quality control, ensuring compliance with ISO and FDA regulations for safe patient use. His interdisciplinary approach integrates mechanical design, material science, and regulatory standards for innovative engineering solutions. ⚙️

Awards & Honors 🏅

• Recognized for Excellence in Medical Device Quality Control at Ayria Daroo Plasma 🏥
• Outstanding Performance in 3D Printer Design & Optimization at Ayhan AM Co. 🏗️
• Internship Recognition for research on Inconel 625 corrosion resistance at Niroo Research Institute 🔬

Publication Top Notes

The publication you’re referring to is:

Title: Optimization of 3D-printed reinforced concrete beams with four types of reinforced patterns and different distances
Authors: Mohammad Hematibahar, Amirali Milani, Roman Fediuk, Mugahed Amran, Amir Bakhtiary, Makhmud Kharun, Mir Sharif Mousavi
Journal: Engineering Failure Analysis
Year: 2025
DOI: 10.1016/j.engfailanal.2024.109096

For the citation, you can use the following format (APA style):

Hematibahar, M., Milani, A., Fediuk, R., Amran, M., Bakhtiary, A., Kharun, M., & Mousavi, M. S. (2025). Optimization of 3D-printed reinforced concrete beams with four types of reinforced patterns and different distances. Engineering Failure Analysis.