Nathan Langdon
About Nathan Langdon
Nathan Langdon is an Associate in Structural Engineering with extensive experience in high-rise building design and construction. He has worked with notable firms such as WSP, KPFF Consulting Engineers, and Tipping Mar, and currently holds a position at Foster + Partners in London.
Work at Foster and Partners
Nathan Langdon has been employed at Foster + Partners as an Associate in Structural Engineering since 2017. In this role, he contributes to various projects, focusing on the integration of complex geometry into structural designs. His work involves collaborating with multidisciplinary teams to ensure innovative and efficient engineering solutions are implemented in building projects.
Previous Experience in Structural Engineering
Before joining Foster + Partners, Nathan Langdon held several positions in structural engineering. He worked at WSP as an Associate from 2013 to 2017, where he managed the design and construction of over 2,500,000 square feet of high-rise space in New York City. Additionally, he served as a Project Engineer at Tipping Mar from 2008 to 2012 and as a Structural Designer at the same firm in 2007. His early career included an internship at KPFF Consulting Engineers in 2005 and a position as a Graduate Engineer at Fluid Structures in 2006.
Education and Expertise
Nathan Langdon earned a Bachelor of Science (BS) in Civil Engineering and a Master of Science (MS) in Structural Engineering, Mechanics & Materials from the University of California, Berkeley. His educational background provides a strong foundation for his expertise in structural engineering, particularly in the integration of complex geometries and seismic design.
Seismic Design Experience
Nathan Langdon has extensive experience in seismic design, having worked across multiple countries including California, Japan, India, and the UAE. This international experience enhances his ability to address the unique challenges posed by seismic activity in various regions, contributing to safer and more resilient building designs.