MSE 230 STRUCTURE AND PROPERTIES OF MATERIALS Course Outcomes 1 2 3 4 5 6 7 8 9 Recognize basic MSE nomenclature basic microstructure associate terms with the appropriate structure phenomena and be able to differentiate between related structures phenomena A1 A2 A3 Perform simple calculations to quantify material properties and micro structural characteristics A1 A2 A3 Recognize the effect of composition and microstructure on material properties A1 A2 A3 Take information from a known situation and apply it to a new situation A1 A2 A3 Predict property response or micro structural changes based on imposed conditions A1 A2 A3 Assess the interplay of two material properties A1 A2 A3 Ability to explain the fundamental basis for materials phenomena A1 A2 A3 Describe a processing sequence to produce materials with specific microstructures and or properties A1 A2 A3 Assess the effect of anisotropy on material properties A1 A2 A3 Multiscale Structure of Matter 1 Atomic bond strength and macroscopic properties 2 Crystal structures crystallography Miller indices X ray diffraction 3 Atomic structures of metals ceramics and polymers 4 Microstructure and structural defects vacancies dislocations and grain boundaries Effect of Microstructure on Macroscopic Properties 1 Dimensional changes due to elastic and plastic deformation 2 Dislocations and their role in yielding and ductility 3 Strengthening by microstructure control 4 Griffith criterion for fracture strength of brittle materials 5 Comparisons of yield and fracture strengths for various materials 6 Composite structures 7 Electrical Properties insulators semiconductors conductors conductivity Microstructure Development 1 Mass diffusion mechanisms 2 Phase diagrams for binary metal and ceramic systems lever law invariant transformations Fe C system 3 Phase Transformations grain growth recrystallization recovery time temperature transformation diagrams precipitation hardening 4 Correlation of processing microstructure and mechanical properties Materials Processing 1 Comparisons among processing methods for crystalline metals and ceramics semicrystalline polymers and amorphous glasses and polymers materials 2 Glass processing 3 Polymer processing COURSE NUMBER MSE 230 COURSE TITLE Structure and Properties of Materials REQUIRED COURSE OR ELECTIVE COURSE Required TERMS OFFERED Fall and Spring TEXTBOOK REQUIRED MATERIAL W D Callister Jr Fundamentals of Materials Science and Engineering An Integrated Approach 2nd ed Wiley 2005 PRE REQUISITES CHM 115 General Chemistry MA 161 Plane Analytic Geometry and Calculus I COURSE OUTCOMES COORDINATING FACULTY E Slamovich 1 COURSE DESCRIPTION The relationship between the structure of materials and the resulting mechanical thermal electrical and optical properties Atomic structure bonding atomic arrangement crystal symmetry crystal structure habit lattices defects and the use of X ray diffusion Phase equilibria and micro structural development Applications to design 2 ASSESSMENTS TOOLS 1 Weekly homework 2 Two 1 hour exams 3 Comprehensive final exam PROFESSIONAL COMPONENT 1 Engineering Topics Engineering Science 3 credits 100 NATURE OF DESIGN CONTENT N A 3 4 5 6 7 8 9 Recognize basic MSE nomenclature basic microstructure associate terms with the appropriate structure phenomena and be able to differentiate between related structures phenomena A1 A2 A3 Perform simple calculations to quantify material properties and micro structural characteristics A1 A2 A3 Recognize the effect of composition and microstructure on material properties A1 A2 A3 Take information from a known situation and apply it to a new situation A1 A2 A3 Predict property response or micro structural changes based on imposed conditions A1 A2 A3 Assess the interplay of two material properties A1 A2 A3 Ability to explain the fundamental basis for materials phenomena A1 A2 A3 Describe a processing sequence to produce materials with specific microstructures and or properties A1 A2 A3 Assess the effect of anisotropy on material properties A1 A2 A3 COMPUTER USAGE None COURSE STRUCTURE SCHEDULE 1 Lecture 2 days per week at 50 minutes 2 Recitation 1 day per week at 50 minutes PREPARED BY E Slamovich RELATED ME PROGRAM OUTCOMES A1 Math and science A2 Engineering fundamentals A3 Analytical skills REVISION UPDATE June 11 2007
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