8 Lectures / 55 Sections / 34h 39m 44s
Lecture 1:Course Info
Section 1
40:39
Lecture 2:Introduction
Lecture 3:Driving Force(s) for Mass Transport
44:39
Section 2
46:42
Section 3
45:34
53:02
39:50
46:38
38:47
51:25
Lecture 4:Diffusion Equation and Solutions
Lecture 5:Diffusion Mechanism
Lecture 6:Diffusion in crystal imperfections
Lecture 7:Chemical Recation
Lecture 8:Heterogeneous Chemical Reaction
Introduction
Duration| 34h 39m 44s
Total Lectures| 8 Lectures 55 Sections

Brief course description

The purpose of this course is to provide students fundamental knowledge of essential kinetics of various material systems. The subjects covered are (1) Diffusion; (2) Chemical reactions; (3) Phase transformations.

Course keywords

擴散(diffusion);化學反應(chemical reaction);相變化(Phase transformation);熱力學(thermodynamics);晶體缺陷 (crystal defect)

Reference Book

    • R. W. Balluffi, "Kinetics of Materials", Wiley 2005
    • O. Levenspiel, “Chemical Reaction Engineering”, 3rd Ed., John Wiley & Sons, 1999.
    • D. A. Porter,“Phase Transformations in metals and alloys”, 2nd Ed., Chapman & Hall, 1992.
Lectures
Lecture 1:Course Info
Section 1 - Outline
40:39
Lecture 2:Introduction
Section 1 - Thermodynamics vs. Kinetics (1)
48:08
Section 2 - Thermodynamics vs. Kinetics (2)
35:40
Section 3 - Thermodynamics vs. Kinetics (3)
55:00
Section 4 - Equilibrium State vs. Steady State
39:07
Section 5 - Flow Process
49:20
Section 6 - Coupling of Forces and Flux
53:38
Section 7 - Coupling of Forces and Flux (2)
46:09
Section 8 - Coupling of Forces and Flux (3)
33:25
Section 9 - Coupling of Forces and Flux (4)
40:17
Section 10 - Coupling of Forces and Flux (5)
14:22
Lecture 3:Driving Force(s) for Mass Transport
Section 1 - Outline & Diffusion
44:39
Section 2 - Diffusion (2)
46:42
Section 3 - Diffusion (3)
45:34
Section 4 - Diffusion (4) & ElectroMigration
38:24
Section 5 - ElectroMigration (2)
53:02
Section 6 - ElectroMigration (3)
39:50
Section 7 - Thermomigraion
46:38
Section 8 - Thermomigraion (2) & Capillarity effect
48:17
Section 9 - Capillarity effect (2)
38:47
Section 10 - Stress Migration
51:25
Lecture 4:Diffusion Equation and Solutions
Section 1 - Stress & Steady and Non-steady Solutions
40:53
Section 2 - Steady and Non-steady Solutions (2)
40:10
Section 3 - Steady and Non-steady Solutions (3) & Concentration-dependent Diffusivity
49:49
Section 4 - Concentration-dependent Diffusivity (2) & Anisotropic Diffusivity
24:07
Lecture 5:Diffusion Mechanism
Section 1 - Outline, Atomic Jumping Process & Random Walk Process
42:08
Section 2 - Diffusion vs. Random Walk (uncorrelated jump)
38:16
Section 3 - Diffusion with correlated jump & Atomic Diffusion Mechanisms (Ring mechanisms, Vacancy mechanisms)
47:37
Section 4 - Atomic Diffusion Mechanisms (Vacancy mechanisms, Interstitial mechanism)
45:17
Section 5 - Atomic Diffusion Mechanisms (Interstitial diffusion in BCC & FCC)
32:59
Section 6 - Atomic Diffusion Mechanisms (Interstitial diffussion in FCC & BCC, Interstitialcy mechanism)
57:02
Section 7 - Atomic Diffusion Mechanisms (Interstitialcy mechanism in FCC & Vacancy-mediated solute diffusion in FCC)
44:24
Section 8 - Atomic Diffusion Mechanisms (Vacancy-mediated solute diffusion in FCC) & Atomic Diffusion in Ionic Solids (Vacancy mechanism)
46:09
Section 9 - Vacancy-mediated/interstitial self-diffusion in ionic solids & Self-diffusion in extrinsic ionic solids
45:39
Section 10 - Self-diffusion in extrinsic ionic solids & in non-stoichimoetric ionic solids
21:38
Lecture 6:Diffusion in crystal imperfections
Section 1 - Introduction
05:55
Section 2 - Effective Diffusivity
42:56
Section 3 - C(x, y, t) in three GB diffusion mechanism
01:00:04
Section 4 - C(x, y, t) in three GB diffusion mechanism (continued)
30:53
Section 5 - Surface & dislocation diffusion
31:31
Lecture 7:Chemical Recation
Section 1 - Overview of chemical reaction
19:43
Section 2 - Catalytic chemical recation & Elementary vs. Non-elementary reactions
43:41
Section 3 - Kinectic model of non-elementary reaction & Temperature-dependence of rate constant
52:09
Section 4 - Rate constant of parallel and series reactions
07:50
Section 5 - Analysis of reaction data for batch-type homogeneous reaction: Differential Method/Fractional-(Half-) lifetime analysis
30:28
Section 6 - Analysis of reaction data for batch-type homogeneous reaction: Integral method (1st, 2nd and zero equations)
30:13
Section 7 - Analysis of reaction data for batch-type homogeneous reaction: Integral method (deal with Irreversible Parallel and Series reaction)
45:24
Section 8 - Analysis of reaction data for batch-type homogeneous reaction: Integral method (deal with Reversible 1st order)
15:49
Lecture 8:Heterogeneous Chemical Reaction
Section 1 - Overview: Heterogeneous & Liquid-Solid Reaction
30:55
Section 2 - Overview: Liquid-Solid Reaction & Gas-Liquid-Solid Reaction
22:09
Section 3 - Fluid-solid chemical reaction: Oxidation of Si substrate
19:02
Section 4 - Fluid-solid chemical reaction: Oxidation of Si substrate (2)
Section 5 - Fluid-fluid chemical reaction: Transport resistance vs Reaction resistance
29:00
Section 6 - Fluid-fluid chemical reaction: Rate equations for different Transport resistance/Reaction resistance
46:40
Section 7 - Fluid-fluid chemical reaction: Rate equations for different Transport resistance/Reaction resistance (2)
30:11
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Prof. Chen Ying-Chieh

Dept. Materials Science and Engineering

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Vascular Tissue Engineering; Biomaterials Development; Stem Cell and Regenerative Medicine; Embedded Biosensor

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