David Walmsley
About David Walmsley
David Walmsley is the Station Operations Manager at Amazon Logistics in Little Rock, Arkansas, a position he has held since 2020. He has extensive experience in operations management, previously serving in various roles at companies such as Matthews International, US Compounding, and Remington Arms.
Current Role at Amazon Logistics
David Walmsley has been serving as the Station Operations Manager at Amazon Logistics since 2020. He is based in Little Rock, Arkansas, where he oversees daily operations, ensuring efficiency and productivity within the station. His role involves managing logistics processes, coordinating with various teams, and implementing operational strategies to enhance performance.
Previous Experience at Matthews International
Before his current position, David Walmsley worked at Matthews International from 2012 to 2016. He held two roles during this time: Lean Manufacturing Manager for one year and Regional MMS & Lean Director for three years. His responsibilities included driving lean initiatives and improving manufacturing processes in Arkansas.
Experience at US Compounding
David Walmsley served as Vice President of Operations at US Compounding from 2016 to 2021. In this role, he was responsible for overseeing operational activities and ensuring compliance with industry standards in Conway, Arkansas. His leadership contributed to the operational efficiency of the organization during his tenure.
Educational Background in Chemistry
David Walmsley earned a Bachelor of Science degree in Chemistry from Lyon College, where he studied from 1999 to 2003. This educational foundation has supported his career in various technical and operational roles across different industries.
Early Career at Rineco Chemical
David Walmsley's early career included positions at Rineco Chemical, where he worked as a Production Chemist for five months in 2004 and as a Production Superintendent from 2004 to 2006. These roles provided him with foundational experience in production and chemical processes.