MSc in Civil Engineering - Structural Engineering in Austin United States | University of Texas at Austin

The Department of Civil, Architectural and Environmental Engineering's graduate program has a global reputation for shaping students into leaders across engineering practice, research, and academia. We encourage ambitious, high-achieving students to apply for our M.S.E. and Ph.D. programs.
Today's intricate challenges at the intersection of urban development, water resources, and energy systems require engineers with both specialized expertise and broad perspectives. CAEE equips students with the foundational knowledge and collaborative skills necessary to pioneer tomorrow's sustainable technologies and infrastructure solutions. Our approach combines rigorous fundamental research with practical applications through innovative teaching methods.
Graduate students can engage with numerous research centers, accessing cutting-edge facilities while joining a vibrant academic community. The CAEE program prepares engineers to become industry leaders, scholars, and public servants at the highest levels of their field.
While an engineering undergraduate degree is preferred, outstanding applicants from other disciplines may be admitted with the condition of completing prerequisite undergraduate coursework tailored to their academic background.
Students can pursue a Master of Science in Engineering with specializations in Civil Engineering or Environmental and Water Resources Engineering. Our Ph.D. program focuses exclusively on Civil Engineering, with Architectural Engineering applicants directed to the Civil Engineering track.
The Structural Engineering Program at The University of Texas at Austin is committed to advancing structural engineering through world-class education, groundbreaking research, and professional leadership. We prepare graduates to excel in industry, research institutions, and academic settings while pushing the boundaries of structural engineering knowledge. Current investigations focus on pioneering design concepts for new construction and infrastructure rehabilitation, structural resilience against extreme events (including earthquakes, hurricanes, fires, and explosions), dynamic behavior modeling, collapse prevention, and smart monitoring systems for structural health assessment.