Møhammed Waseem (Mwa)
About Møhammed Waseem (Mwa)
Møhammed Waseem is a Mechanical Design and FEA Analysis Engineer specializing in photonics, currently working at Applied Materials in Bangalore since 2023. He has previously worked at ISRO and contributed to the development of key technologies for space missions, including the Chandrayaan-3 mission.
Current Role at Applied Materials
Møhammed Waseem serves as a Senior Design and FEA Analysis Engineer specializing in MEMS at Applied Materials. He has been in this role since 2023, contributing to advanced engineering projects in Bangalore. His expertise in mechanical design and finite element analysis (FEA) supports the development of innovative solutions in the semiconductor industry.
Experience at TransDigm Group Inc.
Møhammed Waseem has been employed at TransDigm Group Inc. as a Mechanical Design and FEA Analysis Engineer since 2022. His work focuses on structural analysis and design, leveraging his background in mechanical engineering to enhance product performance and reliability. He has been part of the team in Bangalore for two years.
Education and Mechanical Engineering Background
Møhammed Waseem completed his Bachelor of Engineering (B.E.) in Mechanical Engineering at Visvesvaraya Technological University from 2014 to 2018. He also attended Ghousia College of Engineering during this period, where he furthered his knowledge in mechanical engineering principles. His educational background laid the foundation for his career in mechanical design and analysis.
Previous Experience at ISRO
Prior to his current roles, Møhammed Waseem worked at the Indian Space Research Organization (ISRO) as a Mechanical Design and Analysis Engineer from 2018 to 2022. During his tenure, he contributed to the research and development of sensors for autonomous navigation and guidance systems, particularly for lunar landings, showcasing his involvement in significant space missions.
Contributions to Space Missions
Møhammed Waseem played a key role in the development of the laser Doppler velocity meter (LDV) for the Chandrayaan-3 mission. This instrument is essential for measuring the 3-axis relative velocity of the Vikram lander during its descent phase. His specialization in photonics as part of the mechanical design and analysis team underscores his contributions to critical space exploration projects.