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Course Criteria
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3.00 Credits
Introductory treatment of crystallography, phase equilibria, and materials kinetics. Application of these principles to examples in metals, ceramics, semiconductors, and polymers, illustrating the control of structure through processing to obtain desired mechanical and physical properties. Design content includes examples and problems in materials selection and of design of materials for particular performance requirements. Recommended preparation: ENGR 145 and PHYS 121 and MATH 121.
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3.00 Credits
Diffusion processes, equilibrium diagrams of alloys: solid solutions, phase mixtures, ordering, intermediate phases, binary and ternary diagrams. Thermodynamic, kinetic, and structural aspects of transformation and reactions in condensed systems. Transformations in alloys: phase transformations near equilibrium, precipitation hardening, martensite reactions. Recommended preparation: EMSE 201.
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3.00 Credits
Basic thermodynamics principles as applied to materials. Application of thermodynamics to material processing and performance including condensed phase and gaseous equilibria, stability diagrams, corrosion and oxidation, electrochemical and vapor phase reactions. Recommended preparation: CHEM 301.
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2.00 Credits
Introduction to processing, microstructure and property relationships of metal alloys, ceramics and glass. Solidification of a binary alloy and metallography by optical and scanning electron microscopy. Synthesis of ceramics powders, thermal analysis using TGA and DTA, powder consolidation, sintering and grain growth kinetics. Processing and coloring of glass and glass-ceramics.
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2.00 Credits
Synthesis and processing. Experiments designed to demonstrate and evaluate different ways to process different types of materials. Solidification of melts. Crystallization kinetics, processing using oxidation and oxidized microstructures. Laboratory teams are selected for all experiments.
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2.00 Credits
Experiments designed to characterize and evaluate different microstructural designs produced by variations in processing. Fracture of brittle materials, fractography, thermal shock resistance, hardenability of steels, TTT and CT diagrams, composites, solidification of metals, solution annealing of alloys. Recommended preparation: EMSE 201.
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3.00 Credits
Introduction to materials processing technology with an emphasis on the relation of basic concepts to the processes by which materials are made into engineering components. Includes casting, welding, forging, cold-forming, powder processing of metals and ceramics, and polymer and composite processing. Recommended preparation: EMSE 201 and EMSE 202 and EMSE 203.
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1.00 Credits
Demonstration of basic processes of materials fabrication. Includes visits to commercial materials processing plants for tours and demonstrations. Graded pass/fail.
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3.00 Credits
Review of elasticity and plasticity. Basic stress strain relationships of single crystal and poly-crystalline materials. Yield criteria. Microstructural factors controlling deformation and fracture of polycrystalline materials. Strengthening mechanisms. Fracture toughness and fatigue behavior of engineering materials. Recommended preparation: EMSE 201 and ENGR 200.
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3.00 Credits
Introduction to solid-liquid phase transformations and their application to foundry and metal casting processes. Includes application of nucleation and growth to microstructural development, application of thermodynamics to molten metal reactions, application of the principles of fluid flow and heat transfer to gating and risering techniques, and introduction to basic foundry and metal casting technology. Recommended preparation: EMSE 202 and EMSE 203 and ENGR 225.
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