1. Course description: The purpose of this course is to provide students 
<br>fundamental knowledge of essential kinetics of various material systems. The 
<br>subjects covered are (1) Diffusion; (2) Chemical reactions; (3) Phase 
<br>transformations.
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<br>2. Reference Book:
<br>(1) R. W. Balluffi, "Kinetics of Materials", Wiley 2005
<br>(2) O. Levenspiel, “Chemical Reaction Engineering”, 3rd Ed., John Wiley & Sons, 
<br>1999.
<br>(3) D. A. Porter,“Phase Transformations in metals and alloys”, 2nd Ed., Chapman 
<br>& Hall, 1992.
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<br>3. Teaching methods:
<br>   Lecture
<br>   Prerequisite courses: Engineering Mathematics, Thermodynamics, Physical Metallurgy 
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<br>4. Outlines:
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<br>Lecture 1	Introduction
<br>-	Thermodynamics vs. Kinetics
<br>-	Irreversible thermodynamics
<br>Lecture 2	Diffusion in Solids
<br>-	Diffusion Flux and Driving forces
<br>-	Diffusion equations and solutions
<br>Lecture 3	Diffusion mechanism
<br>-	Atomic diffusion mechanism
<br>-	Diffusion in crystals
<br>-	Diffusion along crystal imperfections
<br>Midterm Examination
<br>Lecture 4	Homogeneous chemical reactions
<br>-	Batch-type reaction, Rate equation & analysis methodology
<br>Lecture 5	Hetergeneous chemical reactions
<br>-	Fluid-solid, Fluid-Fluid, Fluid-Particle reactions
<br>Lecture 6	Coarsening & grain growth
<br>Lecture 7	Spinodal decomposition
<br>Lecture 8	Nucleation theory
<br>Lecture 9	Solidification
<br>Final Examination
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<br>5. Grade: Quiz (30%), Midterm (35%), Final (35%), Homework (bonus)
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<br>6. Lecture note download: http://www.mse.nthu.edu.tw/~cnliao/