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Course Criteria
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4.00 Credits
Prerequisite: MCE 367. Finite Element analysis of stresses and deflections in complex mechanical systems under static and dynamic loading. Integrating modeling techniques with 2D- and 3D-CAD systems for inputting geometric data. Comparisons of finite element results with theoretical and empirical results.
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4.00 Credits
Prerequisite: MCE 367. Design of bearings for hydrodynamic, hydrostatic, and elastohydrodynamic lubrication regimes. Cross-listed with MCE 567.
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3.00 Credits
Prerequisites: MCE 324, MCE 380. Experimentation and analysis of thermal/fluid systems, energy balances, performance measurements of devices and systems, data analysis and correlation, elements of experimental design.
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3.00 Credits
Prerequisites: MCE 380, MCE 441 . Application of linear control theory to experimental study of mechanical, hydraulic, pneumatic control systems, simulation of control systems.
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3.00 Credits
Prerequisites: ESC 301, MCE 371, MCE 380. Introduction to hydraulic and pneumatic fluid power components and systems, analysis and design of components and systems, experimental verification of system modeling.
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4.00 Credits
Prerequisites: Senior standing and permission of individual instructor. Special offering of course material in an area of current interest to students, faculty, and the professional community.
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4.00 Credits
Prerequisites: Senior standing, GPA of 3.0, departmental approval. Independent research of a topic not previously studied in other mechanical engineering courses. Offered under the supervision of a faculty member. A formal report is required.
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4.00 Credits
Prerequisite: Senior standing, honors student. The honors student works with a faculty adviser to form a thesis committee, develop a topic, write, and orally defend his or her thesis.
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4.00 Credits
Prerequisites: associate-degree-level algebra, trigonometry, and geometry. Bridge course for associate-degree holders without familiarity with introductory level statics, dynamics, and strength of materials. Analysis of static equilibrium of trusses and frames including forces in members and joints. Section and mass properties. Static and dynamic friction. Dynamic of particles and bodies in translation or rotation. Fundamental properties of ductile and brittle metals for stress and strain. Direct stress and shear, bending stress, and torsional shear in components. Laboratory tensile test and bending deflection demonstrations.
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3.00 Credits
Prerequisites: associate-degree-level calculus, statics, and strength of materials courses or MET 300. Corequisite: MTT 300. Stress under combined loading, stress concentration factors, design stresses, Mohr's circle, endurance limit and fatigue life, and deflection of variable section beams, method of superposition, bucking. Temperature changes and press fits. Combined stress failure theories. Selection and processing of engineering metals, plastics, and composites. Heat-treating, cold working, and residual stresses. Temperature effects on strength, creep, and ductility.
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