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Course Criteria
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1.00 Credits
A capstone design course centered around an open-ended, faculty-advised senior project involving the design of a process, material, or a technique for solving a technological problem. Pre: 3314 for 4075; 4075 for 4076. Co: 4085 for 4075; 4086 for 4076. (3L,1 Credits).
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2.00 Credits
Capstone course run in parallel with faculty-advised Senior Project Laboratory (MSE 4075-4076). Topics in engineering professional practice, project planning, and reporting. Preparation of proposals, interim reports, final project reports, and discussion of the environmental, social, and economic impacts of engineering. Instruction in design theory, ethics, continuous learning, and global issues. Senior Standing in MSE. Pre: 3884 for 4085; 4085 for 4086. Co: 4095, 4075 for 4085; 4076, 4096 for 4086. 4085: (2H,2 Credits) 4086: (1H,1 Credits).
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2.00 Credits
A capstone design course centered around an open-ended, faculty-advised senior honors project involving the design of a process, material, or a technique for solving a technological problem. Outcomes and work effort are consistent with that expected of honors students. Individual preparation and presentation of an original senior honors thesis. Enrollment in University Honors, and senior standing in MSE required. Pre: 3314 for 4095; 4095, 3324 for 4096. Co: 4085 for 4095; 4086 for 4096. (6L,2 Credits).
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3.00 Credits
Principles of various industrial processes of upgrading minerals from ores, extracting metals from ores and mineral concentrates by pyrometallurgical, hydrometallurgical, and electrochemical methods; an refining metals and producing alloys by various methods. Pre: 4034 or MINE 3554. (3H,3 Credits).
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3.00 Credits
Concepts and methods of nondestructive evaluation of materials. Discussion of techniques and mathematical bases for methods involving mechanical, optical, thermal, and electromagnetic phenomena; design for inspectability; technique selection criteria; information processing and handling; materials response measurement and modeling; signal analysis Pre: 3054, PHYS 2176 or PHYS 2306. (3H,3 Credits).
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3.00 Credits
Introduction to the scientific principles of materials corrosion and corrosion protection. Topics include: thermodynamics of materials corrosion, including potential-PH (Pourbaix) diagrams, kinetics of corrosion reactions and mixed potential theory, types of corrosion (uniform, galvanic, crevice, pitting, fatigue, stress corrosion cracking, intergranular, and hydrogen embrittlement), material/environmental factors that promote or prevent the various types of corrosion, and methods and techniques of corrosion testing. Co: MSE 4034 or ME 3114 or ME 3124 or ME 3134. I. (3H,3 Credits).
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3.00 Credits
Manufacturing practices used in silicon integrated circuit fabrication and the underlying scientific basis for these process technologies. Physical models are developed to explain basic fabrication steps, such as substrate growth, thermal oxidation, dopant diffusion, ion implantation, thin film deposition, etching, and lithography. The overall CMOS integrated circuit process flow is described within the context of these physical models. Pre: ECE 2204 or ECE 3054. (3H,3 Credits). I.
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3.00 Credits
This two-course sequence covers principles and analyses for design and manufacture of electronic packages. 4235: design issues such as electrical, electromagnetic, thermal, mechanical, and thermomechanical, are covered at the lower levels of packaging hierarchy. Materials and process selection guidelines are discussed for the manufacturing and reliability of chip carriers, multichip and hybrid modules. 4236: system-level package design issues for meeting application requirements and modeling tools for analyzing electronic packages are introduced. Materials and process selection guidelines are discussed for the manufacturing and reliability of packaged electronic products. Pre: ECE 2204. Co: ECE 3054 for 4235. (3H,3 Credits).
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3.00 Credits
Study of the fundamental properties and microstructure of materials in thin film (thin coating) form, their interaction with the substrate, and their processing techniques. Areas of application to exemplify the interdisciplinary nature of the field, including the electronics, biomedical, military, aerospace, and construction industries. Pre: 4206 or 4215 or 4124. Co: 3255. (3H,3 Credits).
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3.00 Credits
This course covers the production, properties and uses of commercially important metals and alloys. The influence of structure, chemistry, and processing upon the properties of metals is emphasized. Alloy selection is discussed. Mechanical, electrical, thermal and chemical characteristics of ferrous and nonferrous alloys are studied. Pre: 2034 or 2044 or AOE 3094. (3H,3 Credits).
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