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Course Criteria
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1.00 Credits
Principles of color and the behavior of light in crystalline materials; use of the petrographic microscope in the identification of minerals using optical techniques. Pre: GEOS 1004. Co: GEOS 3504. (3L,1 Credits).
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3.00 Credits
Introduction to x-ray diffraction; fundamentals, experimental methods, and applications. Pre: (2034 or 2044). (3H,3 Credits).
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3.00 Credits
Introduction to the electrical, magnetic, and optical properties of solid-state materials. Development of atomic scale models for physical phenomena that are observable at the macroscopic scale. Connection is made between basic materials properties and the operational characteristics of selected solid-state devices. Pre: (PHYS 2306, ECE 3054) or ECE 2204. (3H,3 Credits).
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3.00 Credits
Deformation of crystalline solids and its relationship to crystal structure and crystal defects: crystal structures of metals, dislocations and plastic deformation, vacancies, recovery, recrystallization, grain growth, deformation twinning and martensite. Pre: 2034 or 2044. (3H,3 Credits).
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1.00 Credits
Sample preparation for materials characterization techniques including various types of microscopy, spectroscopy, diffraction, and hardness testing. Instruction in the use of heat treating equipment and polishing and chemical etching procedures. Co: 3304. (3L,1 Credits).
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3.00 Credits
Basic crystal chemical principles in multicomponent inorganic materials. Interpretation of one, two, and three component phase diagrams. Interrelationships between crystal chemistry, phase equilibria, microstructure, and properties of materials. Pre: 2034 or 2044. (3H,3 Credits).
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1.00 Credits
Public speaking and workplace communications for materials engineers, business writing for the engineering workplace, teamwork skills, engineering ethics, collaborative writing, engineering management skills, and gender issues in the workplace. Extends the basic treatment of these topics given in MSE 2884. Pre: MSE major, junior status. Pre: 2884. (3L,1 Credits).
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3.00 Credits
high temperatures and in corrosive chemical environments. Thermodynamic principles important in controlling equilibrium in single component systems and multicomponent solid solutions and in establishing the thermodynamic driving force in kinetic processes which are important in materials processing unit operations. Estimation of thermodynamic properties and equilibrium calculations in multicomponent and multiphase systems. Pre: CHEM 1036. (3H,3 Credits).
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3.00 Credits
4055: Selection of materials for engineering systems, based on constitutive analyses of functional requirements and material properties. 4056: The role and implications of processing on material selection. Pre: (2034 or 2044 or 3094 or AOE 3094), (ESM 2204) for 4055; 3044 for 4056. (3H,3 Credits).
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3.00 Credits
Basic principles of tribology--the study of friction, wear, and lubrication--including the importance of materials, surfaces, design, operating conditions, environment, and lubrication on friction, wear, and surface damage in any system. Application of tribological theories, concepts, techniques, and approaches to design, research, development, evaluation, and problem-solving. Pre: 2034 or 2044, 3034 or ME 3404. (3H,3 Credits).
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