Kim O'connell
About Kim O'connell
Kim O'Connell is a Production Supervisor at Boston Scientific with a background in chemical engineering and experience in both engineering and supervisory roles.
Company
Kim O'connell is currently working at Boston Scientific. Boston Scientific is a prominent medical device company with a global reputation in the healthcare industry. Kim's role at this company is integral to the production processes, ensuring the high standards and efficiency required in the medical field.
Title
Kim O'connell holds the position of Production Supervisor at Boston Scientific, a role she has been fulfilling since 2021. In this capacity, she oversees production operations in Maple Grove, Minnesota, and is responsible for managing production teams to meet manufacturing targets and maintain quality control.
Professional Background
Kim O'connell has a diverse professional background in engineering and supervision. She began her career as a Manufacturing Engineer I at Boston Scientific from 2019 to 2021. Prior to that, she interned at CertainTeed Corporation and Michigan State University, gaining experience in materials and process engineering, and metallurgical lab work at Tenneco. Her roles have equipped her with a well-rounded skill set, enabling her effective transition into her current supervisory position.
Education and Expertise
Kim O'connell earned her Bachelor's degree in Chemical Engineering from Michigan State University, where she studied from 2014 to 2019. Her education provided a strong foundation in chemical and materials engineering, preparing her for various technical roles in the manufacturing industry. This technical expertise underpins her current responsibilities as a Production Supervisor at Boston Scientific, where she applies her engineering knowledge to supervise production processes and improve operational efficiency.
Achievements
Kim O'connell's career progression from a Manufacturing Engineer to a Production Supervisor at Boston Scientific highlights her capabilities and contributions within the company. She has demonstrated adaptability and leadership in transitioning from engineering roles to supervisory positions, reflecting her ability to effectively manage and optimize production operations in a highly regulated industry such as medical device manufacturing.