Doctoral Degree

 

Doctoral study provides the highest level of formal preparation before entering the engineering profession. It is both competitive and challenging and offers special opportunities for learning, research and application. Together with their professors and mentors, doctoral students comprise a true community of scholars. The student’s advisory committee, which is responsible for overseeing the student’s final achievement, is an integral part of such a community.

Doctoral study is normally completed in three to five years, depending on individual circumstances. In addition to the general requirements of the Graduate School as outlined in the Graduate School Catalog, each student must meet the minimum requirements of the program as well as complete and successfully defend a dissertation.

You can earn a PhD in Civil Engineering with a concentration in Applied Mechanics, Structural Engineering, or Transportation and Urban Engineering.

Applied Mechanics
Students pursuing a PhD in Civil Engineering with a concentration in Applied Mechanics will increase their knowledge by pursuing in-depth research along with faculty. The Structural Engineering and Applied Mechanics (STAM) group performs multi-disciplinary research in the areas of structural engineering, advanced design, and structural vibrations. The faculty has expertise in both structural engineering, involving the design of buildings, bridges and other structures, and applied mechanics, which forms the basis of all structural analysis and design. Faculty research areas include computational fracture and damage mechanics, and theoretical structural mechanics. Learn more.

Structural Engineering
Students pursuing a PhD in Civil Engineering with a concentration in Structural Engineering will increase the breadth and depth of their understanding of the subject matter through in-depth research and advanced coursework in concrete or steel structures. Students will benefit from access to our Structures Laboratory, a high-bay facility whose in-house crane, actuator, and shake-table provide the capacity to conduct full-scale experiments on structural components. Faculty hold expertise in areas including multihazard resilient design, structural health monitoring, smart structures, and structural simulation techniques. Learn more.

Transportation and Urban Engineering
Educational and research activities in Transportation and Urban Engineering focus on the planning, design and operation of transportation systems.  Faculty research interests span a variety of areas of expertise, including transportation safety, highway crash prediction, geographic information science, sustainable transportation, urban design, and regional planning. The Transportation Systems Laboratory is  currently used for teaching graduate courses, senior design collaborative space, research activities and partnering with academic and industry partners.The transportation research group works in conjunction with the Connecticut Transportation Institute. Learn more.

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View or download our brochures to find out more about our areas of concentration: