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Course Criteria
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4.00 Credits
Mass and energy balances applied to metallurgical materials systems, design of materials products and processes including evaluation of energy needs and input/output stream compositions. 3 lectures, 1 laboratory. Prerequisite: MATE 210, STAT 312. Concurrent: CHEM 305, MATE 340.
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4.00 Credits
Design of processes for engineering materials. Topics include kinetics in materials: solid-state diffusion (steady-state and non-steady-state), nucleation and growth kinetics, solid state phase transformations. 3 lectures, 1 laboratory. Prerequisite: MATE 360. Concurrent: MATE 330.
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1.00 - 4.00 Credits
Individual investigation, research, studies, or surveys of selected problems. Total credit limited to 8 units, with a maximum of 4 units per quarter. Prerequisite: Consent of department head.
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3.00 Credits
Metallographic practices for metals and non-metals. Theory and applica-tion of quantitative microscopy and image analysis. Fundamental and advanced Scanning Electron Microscopy (SEM) and Energy Dispersive Spectroscopy (EDS) analysis of metals, ceramics, and polymers. Introduc-tion to Differential Scanning Calorimetry (DSC). 3 lectures. Prerequisite: MATE 210, MATE 215. Co-requisite: MATE 406.
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2.00 Credits
Interpretation of microstructures in metals and non-metals and laboratory methods for revealing and documenting such microstructures. Funda-mental and advanced Scanning Electron Microscopy (SEM) and Energy Dispersive Spectroscopy (EDS) analysis of metals, ceramics, and polymers. Introduction to Differential Scanning Calorimetry (DSC). 2 laboratories. Prerequisite: MATE 210, MATE 215. Co-requisite: MATE 401.
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4.00 Credits
Forms of corrosion. Influences of environmental variables on corrosion. Methods of corrosion control. 3 lectures, 1 laboratory. Prerequisite: CHEM 125 or CHEM 128, MATE 210, MATE 215. Materials analysis and characterization course or Special topics course.
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3.00 Credits
Silicon-based fabrication science and technology. Oxidation, diffusion, ion implantation, etching, chemical and physical vapor deposition, photolitho-graphy. 3 lectures. Prerequisite: MATE 210. Prerequisite or concurrent: MATE 360 or permission of instructor. Materials processing course.
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2.00 Credits
Basic processes involved in microfabrication; cleanroom protocol, oxida-tion, diffusion, photolithographic and etching processes, sputtering and evaporation, process development through experimentation, device testing. Each student will be part of a 4-6 person team that will fabricate a micro electronic device or integrated circuit. 2 laboratories. Prerequisite or concur-rent: MATE 430, STAT 312 or equivalent. Materials processing course.
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3.00 Credits
Principles, primary variables, and microstructural changes associated with the joining process. Physics of energy transfer. Heat and mass balances in joining, thermodynamic and kinetic justification of solidification and near interface microstructures. Heterogeneous interfaces, adhesion, wetting. Relation between process selection, interface design, microstructure, and properties, weldability. 3 lectures. Prerequisite: MATE 210. Materials processing course.
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2.00 Credits
Laboratory to accompany MATE 440. Illustration of principles, primary variables, and microstructural changes associated with the joining process. Physics of energy transfer. Heat and mass balances in joining, thermody-namic and kinetic justification of solidification and near interface micro-structures. Heterogeneous interfaces, adhesion, wetting. Relation between process selection, interface design, microstructure, and properties, weldabil-ity. 2 laboratories. Prerequisite: MATE 210. Materials processing course.
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