Nicholas Heaps
About Nicholas Heaps
Nicholas Heaps is a Production Technician 3 currently working at Janicki in Layton, Utah. He has a diverse background in production and management roles across various companies, emphasizing leadership and a passion for adhesives and composites.
Current Role at Janicki Industries
Nicholas Heaps serves as a Production Technician 3 at Janicki Industries since 2023. He works on-site in Layton, Utah, where he applies his skills in production processes. His role involves ensuring quality and efficiency in manufacturing operations, contributing to the company's commitment to high standards.
Previous Work Experience
Nicholas has a diverse work history that includes several roles in various companies. He worked as an Operations Supervisor at Stitch Fix from 2021 to 2023 and as an Engineering Technician 2 at Stadler US in 2023. His earlier positions include roles at FedEx Express as a Courier and as an Assistant Manager at FedEx Office. He also held the position of Merchandise Supervisor at Lagoon Amusement Park from 2003 to 2005.
Education and Training
Nicholas studied at Weber State University from 2014 to 2015. He also attended Davis Applied Technology College, where he focused on Aerospace and achieved a specialization in Composites from 2015 to 2016. His foundational education includes a High School Diploma from Viewmont High School, where he studied from 2003 to 2006.
Leadership and Values
Nicholas values honesty, quality, and timeliness in his work. He strives to instill these principles in those he leads. His passion for leadership developed through training and teaching others in the field of composites, reflecting his commitment to fostering a productive work environment.
Passion for Adhesives and Composites
Nicholas has a strong interest in working with adhesives and a desire to understand how structures are held together by them. This passion aligns with his educational background and work experience in the composites field, where he has discovered a love for the intricacies of material bonding and structural integrity.