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Course Criteria
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3.00 Credits
Basic nature of materials in relation to microscopic and macroscopic properties, mechanical testing techniques, different techniques in strengthening metals, impact strength of plastics, corrosion. Not for Engineering credit. Prerequisites & Corequisites: Prerequisite: MSE 2540 must be taken concurrently. Credits: 1 hour Lab Hours: (0 to 3)
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1.00 Credits
Laboratory investigations of topics covered in the basic materials course. Mechanical testing techniques to determine the strength of materials, structure-properties relationships, different techniques in strengthening metals, corrosion. Prerequisites & Corequisites: Prerequisite: ME 2500 must be taken concurrently. Credits: 1 hour
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3.00 Credits
Introduction to electron theory of metals. Introduction to crystallography and x-ray diffraction, defect structure of metals and their application to solid state diffusion. Prerequisites & Corequisites: Prerequisites: MATH 1230 or 1710, PHYS 2050, ME 2500, and department approval. Credits: 4 hours Lab Hours: (4 to 0)
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3.00 Credits
Principles of heat, charge, mass, and momentum transport. A comprehensive treatment of bulk and surface diffusion in solids, including mathematical formalism. Application to lattice defects, conductivity, semiconductivity, processing, heat treatment, coating, and corrosion and oxidation of metals. Prerequisites & Corequisites: Prerequisites: MATH 3740, MSE 3530, and CHEM 4300. Credits: 3 hours
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3.00 Credits
Fundamentals of elasticity and plasticity theory. The mechanical and thermo-mechanical forming methods of materials. Prerequisites & Corequisites: Prerequisites: ME 2500, ME 2530 or 2560, MATH 2720, and department approval. Credits: 3 hours Lab Hours: (3 to 0)
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3.00 Credits
Principles and application of physical experimental techniques in materials analyses and research. Techniques include x-ray diffraction, electron microscopy, optical microscopy, atomic force microscopy, m"ssbauer spectroscopy, and thermal analysis. Prerequisites & Corequisites: Prerequisites: ME 2500, GEOS 3350, and consent of instructor. Credits: 3 hours Lab Hours: (2 to 3)
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3.00 Credits
Introduction to chemical metallurgy, thermodynamic functions associated with compounds, diffusion, phase equilibria and phase diagrams, extractive metallurgy, chemistry of ceramics. Prerequisites & Corequisites: Prerequisites: ME 2500, CHEM 4300. Credits: 4 hours Lab Hours: (4 to 0)
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3.00 Credits
Crystallography and atomic bonding relationships relative to mechanical, thermal, optical, magnetic, and electrical properties. Phase equilibria and transformation. Mechanical and physical properties of ceramic composites. Electronic, optical, biological, and structural application of ceramics and ceramic composites. Processing of traditional and technical ceramics. Prerequisites & Corequisites: Prerequisites: ME 2500 and CHEM 4300. Credits: 3 hours Lab Hours: (3 to 0)
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3.00 Credits
Polymerization techniques and molecular weight distributions. Polymer chain configuration, conformation, shape, and viscoelastic properties. Microstructure and physical and mechanical properties of bulk polymers, thin films, and solutions. Polymer composite materials. Major polymer classes and their modern applications. Prerequisites & Corequisites: Prerequisites: CHEM 3700, IME 2500, and ME 2500. Credits: 3 hours Lab Hours: (2 to 3)
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3.00 Credits
Theory, design implications and case studies in the following areas: elastic deformation, plastic deformation, creep, fracture, fatigue, corrosion and oxidation. A technical paper based on a project will be submitted at the end of the course. Prerequisites & Corequisites: Prerequisites: MSE 4570, MSE 4710, IME 2610 and MATH 3740. Credits: 3 hours Lab Hours: (2 to 3)
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