Use this page to maintain syllabus information, learning objectives, required materials, and technical requirements for the course. |
MSE 60000 - Materials Engineering Fundamentals |
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Associated Term:
Fall 2022
Learning Outcomes: 1. Perform calculations to quantify material properties and microstructural characteristics. Example: Calculate the interplanar spacing of a family of atomic planes given a x-ray diffraction pattern. 2. Recognize the effect of composition and microstructure on material properties. Example: The effect of dislocation density on yield strength and electrical conductivity. 3. Take information from a known situation and apply it to a new situation. Example: Effect of temperature and applied stress on the peak positions in a XRD pattern. 4. Predict property response or microstructural changes based on imposed conditions. Example: Effects of temperature and alloying on the resistivity of metals. 5. Assess the interplay of two or more material properties. Example: Assess the effect of atomic bond strength on Young's modulus, coefficient of thermal expansion and melting temperature. Required Materials: Technical Requirements: |
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