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Course Criteria
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3.00 Credits
(243) First semester. Three credits. Prerequisite: CHEM 1127Q or 1147Q. Not open to students who have passed MSE 2101. Bonding in materials, the crystal structure of metals and ceramics, and defects in materials will be introduced. Basic principles of phase diagrams and phase transformations will be given with particular emphasis on microstructural evolution and the effect of microstructure on the mechanical properties of metals and alloys. Introductory level knowledge of mechanical properties, testing methods, strengthening mechanisms, and fracture mechanics will be provided.
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3.00 Credits
(244) Second semester. Three credits. Prerequisite: MSE 2001 or 2101. Structures, properties, and processing of ceramics; structure, properties and processing of polymers and composites; electrical, thermal, magnetic and optical properties of solids; and corrosion.
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1.00 Credits
(284) Second semester. One credit. Prerequisite: MSE 2002, which may be taken concurrently. One 3-hour laboratory period. Principles of materials properties, processing and microstructure will be illustrated by experiments with qualitative and quantitative microscopy, mechanical testing, thermal processing, plastic deformation and corrosion. Materials design and selection criteria will be introduced by studying case histories from industry and reverse engineering analyses.
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3.00 Credits
(201) Both semesters. Three credits. Prerequisite: CHEM 1127Q or 1147Q. Not open to students who have passed MSE 2001. Relation of crystalline structure to chemical, physical, and mechanical properties of metals and alloys. Testing, heat treating, and engineering applications of ferrous and non-ferrous alloys.
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4.00 Credits
(256) First semester. Four credits. Prerequisite: MSE 2001 or 2101. Thermodynamic principles will be applied to the behavior and processing of materials. Topics covered will include thermodynamic properties, solution thermodynamics, phase equilibria, phase diagram prediction, gas-solid reactions and electrochemistry.
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4.00 Credits
(255) Second semester. Four credits. Prerequisite: MSE 3003 and MATH 2110Q, both of which may be taken concurrently. Mechanisms and quantitative treatment of mass, energy, and momentum transfer will be applied to design and analysis of materials processing. Increasingly complex and open-ended engineering design projects will be used to illustrate principles of diffusion; heat conduction, convection, and radiation, and fluid flow.
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3.00 Credits
(265) First semester. Three credits. Prerequisite: MSE 2001 or 2101. Principles and applications of phase transformations to control microstructure and materials properties. In depth, quantitative coverage will include vacancies, solid solutions, phase diagrams, diffusion, solidification of metals, nucleation and growth kinetics, and thermal treatments to control microstructure.
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3.00 Credits
(266) Second semester. Three credits. Prerequisite: MSE 2001 or 2101. Elements of elastic plastic deformation of materials and the role of crystal structure. Strengthening and toughening mechanisms. Fracture; including fatigue, stress corrosion and creep rupture. Test methods.
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3.00 Credits
(207) Second semester. Three credits. Prerequisite: MSE 2001 or 2101. Methods for determining the nature and cause of materials failure in structures and other mechanical devices. Analysis of case histories.
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3.00 Credits
(229) Semester and hours by arrangement. Three credits. Prerequisite: MSE 2002 and PHYS 1502. Kattamis Microstructure of crystalline ceramics and glassesand role of thermodynamics and kinetics on its establishment. Effect of process variables on microstructure and ultimately on mechanical, chemical and physical properties.
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