Exponent's multidisciplinary design support teams assess structural health and offer design improvements
Durable and safe structural design combines engineering and scientific disciplines — from physics to materials science to geology. Exponent evaluates site and surrounding geography, building materials, and potential structural forces and loads to assess design integrity, offering evidence-based insights for remediation.
Exponent supports clients with a variety of performance-based structural design capabilities to help them assess and improve structural strength. With our structural health monitoring services, clients can proactively address structural safety issues and avoid costly damage. Our seismic protective systems and wind engineering consulting services provide quantitative methodologies and data for designing sturdier buildings and structures that are more resistant to wind and earthquakes.
Exponent's civil engineering team provides expert structural design and monitoring support to help clients overcome a range of design and engineering challenges.
Our Capabilities Are Unparalleled
With expertise in over 90 disciplines and hundreds of capabilities, tools, and methodologies — we get to the root of even the most complex challenges and give you the objective answers you need.
Quantitative Risk Assessment for Buildings & Structures
Innovative, quantitative risk assessments to support climate-change planning that helps protect buildings, infrastructure, and other valuable assets.
Design & Construction Defects
Rigorous design and construction defect assessments, including building components and standard-of-care evaluations.
Testing & Analysis of Construction & Building Materials
Cutting-edge technical construction engineering and materials testing.
Accident investigation informed by 50+ years of failure analysis, including falls, equipment-related incidents, impacts and collapses.
From airports to green buildings, construction consulting for specialty structures requiring wide-ranging expertise to improve safety and performance.
Understand why buildings and structures fail, and how to prevent similar failures in the future.
Rapid, data-driven engineering response to natural disasters, accidents, and human-made catastrophes.