Mike Czech
About Mike Czech
Mike Czech is a Powertrain Resident Engineer at Ford Motor Company, specializing in root cause failure mode analysis within the automotive sector. He has a background in mechanical engineering from Northwestern University and previously worked as a PVT Chassis Engineer at Ford and as an intern at Woodward MPC.
Work at Ford Motor
Mike Czech currently serves as a Powertrain Resident Engineer at Ford Motor Company, a position he has held since 2015. He works at the Chicago Assembly Plant, where he focuses on root cause failure mode analysis. His role involves evaluating production vehicles, conducting testing, and performing analysis to ensure the delivery of high-quality automotive products. Prior to his current position, he worked as a PVT Chassis Engineer at Ford from 2014 to 2015, contributing to various projects during his one-year tenure.
Education and Expertise
Mike Czech earned a Bachelor of Science (B.S.) in Mechanical Engineering from Northwestern University, completing his studies from 2007 to 2011. His academic background provides a strong foundation for his expertise in workstation analysis and investigation. He specializes in improving manufacturing processes within the automotive sector, leveraging his education to enhance operational efficiency.
Background
Before joining Ford Motor Company, Mike Czech gained experience as an intern at Woodward MPC in Niles, Illinois, in 2007. This internship lasted three months and provided him with practical exposure to the engineering field. His career trajectory reflects a commitment to the automotive industry, with a focus on engineering roles that emphasize quality and process improvement.
Achievements
Throughout his career, Mike Czech has been involved in significant aspects of automotive engineering, particularly in production vehicle evaluation and analysis. His contributions have led to advancements in manufacturing processes and quality assurance within the automotive sector. His role in root cause failure mode analysis has been crucial in identifying and addressing issues in vehicle performance.