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Course Criteria
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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.
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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 6560 or MSE 6340.
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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 6520. 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 6530.
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3.00 Credits
This course covers the basic principles of supramolecular chemistry, the classification of hierarchical noncovalent supramolecular interactions, design strategies of supramolecular assemblies, structure-property-function relationships of supramolecular materials, and their applications in advanced molecular electronics, photovoltaics, and energy conversion and storage technologies. May also be offered as CH 6540.
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3.00 Credits
Chemicals used in the preparation of fabric for dyeing and finishing. Oxidizing and reducing agents and their control and effect on various fibers. Colloidal and surface active properties of various compounds and the fundamental factors influencing these properties.
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3.00 Credits
Understanding of physical, chemical, and mechanical principles behind the application of colors and finishes to textiles. Requires an appreciation of fiber chemistry and morphology, dye and finish structures and reactivity and mechanical principles behind equipment used to effect transfer of these chemicals onto the textile substrate.
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3.00 Credits
Introduction to surface phenomena focusing on the materials science applications. Fundamentals of interfacial phenomena embrace capillarity, thermodynamics of surfaces, physics of adsorption, nucleation/condensation, adhesion, wetting, and finishing emphasizing specific features associated with interactions of liquids and chemicals with materials. Demonstration of lab processes are presented in the course. Preq: Junior standing in engineering or science.
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3.00 Credits
Familiarizes students with the physical properties of textile and high performance fibers and how these properties influence process and end-use performance; method of measuring those properties; and how those properties are related to structural features of the fiber. Includes Honors sections.
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3.00 Credits
Survey of selected areas of current research in polymer science with particular emphasis on polymer synthesis. Although a text is required for review and reference, course is primarily literature based and focused on areas of high impact to multidisciplined technology. May also be offered as CH 6650. Preq: Graduate standing.
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