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CE 6740: Plates and Shells

3.00 Credits

University of Virginia-Main Campus

Includes the classical analysis of plates and shells of various shapes; closed-form numerical and approximate methods of solution of governing partial differential equations; and advanced topics (large deflection theory, thermal stresses, orthotropic plates). Cross-listed as AM 604, MAE 604.

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CE 6750: Mechanics of Composite Materials

3.00 Credits

University of Virginia-Main Campus

Analyzes the properties and mechanics of fibrous, laminated composites; stress, strain, equilibrium, and tensor notation; micromechanics, lamina, laminates, anisotropic materials, classical lamination theory, stiffness and strength, interlaminar stresses, fabrication, and test methods; thermal stresses, analysis, design and computerized implementation. Cross-listed as AM 665.

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CE 6760: Stress Analysis of Composites

3.00 Credits

University of Virginia-Main Campus

Focuses on 3-D anisotropic constitutive theory, edge effects and interlaminar stresses, failure criteria, fracture, anisotropic elasticity, micromechanics, laminated plates, hygro-thermal effects, conduction and diffusion. Cross-listed as AM 666.

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CE 6770: Theory of Elasticity

3.00 Credits

University of Virginia-Main Campus

Reviews the concepts of stress, strain, equilibrium, compatibility; Hooke¿s law; displacement and stress formulations of elasticity problems; plane stress and strain problems in rectangular coordinates; Airy¿s stress function; plane stress and strain problems in polar coordinates, axisymmetric problems; torsion of prismatic bars (semi-inverse method using real functions); thermal stress; and energy methods. Prerequisites: CE 6720 or AM/MAE 6020 or instructor permission.

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CE 6775: Theory of Structural Stability

3.00 Credits

University of Virginia-Main Campus

Introduces the elastic stability of structural and mechanical systems. Studies classical stability theory and buckling of beams, trusses, frames, arches, rings and thin plates and shells. Also covers the derivation of design formulas, computational formulation and implementation. Cross-listed as AM 675.

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CE 6993: Independent Study

1.00 - 12.00 Credits

University of Virginia-Main Campus

Detailed study of graduate course material on an independent basis under the guidance of a faculty member. Master’s-level graduate students.

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CE 6995: Supervised Project Research

1.00 - 12.00 Credits

University of Virginia-Main Campus

Formal record of student commitment to project research under the guidance of a faculty advisor. Registration may be repeated as necessary. Master’s-level graduate students.

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CE 7001: Graduate Seminar

0.00 Credits

University of Virginia-Main Campus

Weekly meeting of graduate students and faculty for presentation and discussion of contemporary research and practice in civil engineering. This seminar is offered every spring semester.

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CE 7120: Advanced Pavement Analysis and Design

3.00 Credits

University of Virginia-Main Campus

This course covers advanced topics in the design and analysis of pavement structures for all types of pavements. Mechanistic-empirical design procedures are covered, and drainage layer design is discussed in detail. Actual pavement design programs are used and advanced design checks and analysis topics covered in detail. Stress, strain, deflection calculation, and back calculation procedures are also discussed.

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CE 7200: Environmental Hydraulics Modeling

3.00 Credits

University of Virginia-Main Campus

This course focuses on an advanced modeling topic - environmental hydraulics of contaminants in ecosystems. Major components covered in the course include mixing zone modeling analysis of near field and far field, hydrodynamic modeling of ecosystems such as reservoirs/lakes, estuaries/coastal waters, and wetlands. One of the key elements in the course is conducting a dye dispersion study in the receiving water to support a mixing zone modeling analysis. Finally, linking the watershed, hydrodynamic and receiving water fate and transport models is addressed.

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