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Course Criteria
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3.00 Credits
Provides a comprehensive introduction to the synthesis, properties, design, and applications of polymeric materials. Topics include molecular characterization, structure, morphology, chemical and physical behavior of the polymers. Students gain knowledge about the principles and the modern conception of advanced polymeric materials. Includes Honors sections. May also be offered as CH 4150. Preq: CH 2010 or CH 2240.
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3.00 Credits
Covers a range of topics dealing with electrical and magnetic materials, including metal and polymer conductors, insulators, ceramic and polymer materials for dielectric applications, and ferroelectric, piezoelectric, pyroelectric, and electrooptic materials. Metal and ceramic magnetic materials are also discussed.
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3.00 Credits
Explores science and engineering issues that underlie advanced energy systems for the transportation, industry/manufacturing, buildings and electrical sectors of the economy. Preq: MSE 2100.
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3.00 Credits
Covers the microstructural basis of deformation and fracture in ceramic, metallic, and polymeric systems. Examines the effects of external loads on deformable bodies with the derivation of stresses and strains; as well as the relationship between mechanical properties and behavior of engineering materials. Preq: CE 2010 and MATH 2080.
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3.00 Credits
Introduces the interaction of light with materials. Specific topics include fundamental optical properties, color, generation and detection of light, selected optical materials, and models for the interaction of light with insulators, semiconductors, and metals. Preq: MSE 3100.
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3.00 Credits
Teaches students to use single component, binary, and ternary phase diagrams to analyze material processing routes and utilization. Considers reaction pathways by which material microstructure evolves and the relationship of reaction pathway to equilibrium phase diagrams. Also considers material interactions/degradation during use. Preq: ME 3030 or MSE 3260.
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3.00 Credits
Plant layout and design for manufacturing of ceramic products. Emphasizes process control and verification of processing results. Includes adaptation of computers in process simulation/robotics and the use of programmable logic controllers and robotics in processing. Preq: ME 3030 or MSE 3260.
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3.00 Credits
Introduces basic Additive Manufacturing (AM) principles, history, and general process. Topics include fundamentals of AM technologies, process selection guidelines, post-processing, direct digital manufacturing and progress of AM technologies. Credit will be given for only one of ME 4560 or MSE 4340. Preq: MSE 2100.
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3.00 Credits
Provides a comprehensive review of the subject and covers electrochemical reactions, thermodynamics and kinetics of corrosion, different types of corrosion, corrosion monitoring techniques, and corrosion prevention through materials selection, design, cathodic and anodic protection and coatings. May also be offered as CE 4520. Preq: CH 1010.
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3.00 Credits
During non-destructive evaluation, scientists or engineers use a range of techniques to probe the properties of a material or system without causing damage. This course gives an overview of common techniques, including but not limited to liquid penetration, acoustic emission, eddy currents, x-ray, magnetic and ultrasonic testing. In addition, the course provides insight into the limitations of these techniques and identifies how they are currently used by engineers and other professionals in a variety of applications. May also be offered as CE 4530.
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