Thomas Hanson
About Thomas Hanson
Thomas Hanson is a Mechanical Engineer at Sandia National Laboratories with extensive experience in mechanism design and product development.
Current Position at Sandia National Laboratories
Thomas Hanson has been serving as a Mechanical Engineer at Sandia National Laboratories since 2009. His role at Sandia involves leading product realization efforts and ensuring that products meet stringent performance requirements during the manufacturing process. Hanson leverages his expertise in mechanism design and product development to improve and innovate mechanical systems and components.
Career History at Jacobs Technology
From 2007 to 2009, Thomas Hanson worked at Jacobs Technology as a Mechanical Engineer. Based at the Johnson Space Center and White Sands Test Facility in Las Cruces, NM, he contributed to crucial engineering projects. His responsibilities likely involved design and testing of mechanical systems and components, ensuring they met performance and safety standards.
Experience at Honeywell Technology Solutions
Thomas Hanson was employed by Honeywell Technology Solutions, Inc. from 2004 to 2007 as a Mechanical Engineer. His tenure there included work at the Johnson Space Center and White Sands Test Facility in Las Cruces, NM. At Honeywell, Hanson developed his skills in mechanism design and product development, contributing to the advancement of aerospace engineering projects.
Education in Mechanical Engineering
Thomas Hanson gained his educational foundation at New Mexico State University. He earned a Master's degree in Mechanical Engineering with an Industrial Engineering Minor from 2003 to 2005. Earlier, from 1997 to 2003, he completed his Bachelor's degree in Mechanical Engineering with a supplemental focus in Applied Mathematics. This solid educational background underpins his expertise in analyzing performance metrics, mechanical interactions, and tolerance effects on mechanism operation.
Expertise in Mechanism Design and Performance Analysis
Thomas Hanson specializes in mechanism design and product development. He is proficient in leading product realization efforts, focusing on ensuring that manufacturing processes meet rigorous performance standards. His expertise extends to analyzing performance metrics, understanding the mechanical interactions and responses of materials, and assessing the effects of tolerances on mechanism operation. These skills have been crucial in his engineering projects across various high-profile organizations.