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Course Criteria
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3.00 Credits
LEC. 3. Pr., CIVL 6500 or departmental approval. Transportation safety problems and the engineer's role in developing and administering safety programs. Topics include hazardous location identification; analysis of accident data; development and evaluation of accident countermeasures and safety programs.
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3.00 Credits
LEC. 3. Pr., CIVL 6500 or departmental approval. Concepts of roadside design that can prevent or reduce crash severity. Topics include design, selection, placement and construction of longitudinal barriers, crash cushions, bridge rails, transitions, end terminals, sign posts, and other roadside features.
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3.00 Credits
LEC. 3. Pr., CIVL 6670. Singledegree- of-freedom systems, numerical solution techniques, response spectrum, multi-degree-of-freedom systems, eigen problem solution, mode superposition analysis.
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3.00 Credits
LEC. 3. Pr., CIVL 7610. Analysis of MDOF systems by direct numerical integration, continuous systems, nonlinear dynamics response, earthquake response of structures.
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3.00 Credits
LEC. 3. Pr., CIVL 3610. Hooke's 1-D, 2-D, 3-D stress-strain relations and applications, stress and strain transformations and Mohr's circle, material properties and failure theories, biaxial bending, unsymmetrical bending, composite material members, shear center, torsional stress, stress concentrations, beams on elastic foundations.
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3.00 Credits
LEC. 3. Coreq., CIVL 6670. Introduction to stability and failure of compression members, rigid bar buckling, elastic and inelastic buckling of columns, approximate methods of buckling analysis, beam-columns, buckling of frames, torsional buckling, lateral torsional buckling of beams.
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3.00 Credits
LEC. 3. Pr., CIVL 6670. Matrix analysis of framed structures, elastic supports, specified displacements, member and releases, principle of minimum potential energy, geometric non-linearity, frame stability, substructures.
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3.00 Credits
LEC. 3. Pr., CIVL 6670 or departmental approval. Introduction to finite element analysis; variational principles. id, 2D and 3D element formulation; nonlinear (geometric and constitutive) formulations and solutions; eigen value problems.
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3.00 Credits
LEC. 3. Basic concepts of non-linear analyses, formulation of the continuum mechanics incremental equations, total and updated Lagrangian formulations, finite elements for non-linear analyses, non-linear solution strategies.
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3.00 Credits
LEC. 3. Pr., CIVL 4650 or departmental approval. Linear-elastic and elastic-plastic fracture mechanics, fatigue, yield criteria, applications to highway structures.
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