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An Easy Comprehensive Learning of the Kinetic Processes in Materials

Generally, kinetic energy of an object is the energy possessed due to its motion. Here kinetic processes in Materials deals with a unified treatment of phenomenological and atomistic kinetic process in materials. This [course_title] will enlighten you by describing you the foundation for the advanced understanding of processing, microstructural evolution and behaviour for a broad spectrum of materials. Moreover, this [course_title] will easily help you solve problems related to irreversible thermodynamics, nucleation, gas-solid, morphological instabilities etc.


This course does not involve any written exams. Students need to answer 5 assignment questions to complete the course, the answers will be in the form of written work in pdf or word. Students can write the answers in their own time. Each answer needs to be 200 words (1 Page). Once the answers are submitted, the tutor will check and assess the work.


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Course Credit: MIT

Course Curriculum

Introduction: Fields and Gradients; Fluxes; Continuity Equation 00:10:00
Irreversible Thermodynamics 00:10:00
Driving Forces and Fluxes for Diffusion; Self-Diffusion and Interdiffusion 00:10:00
Interdiffusion; Effects of Electrical Potential, Capillarity, and Stress on Diffusion Potential 00:10:00
Effects of Capillarity and Stress on Diffusion 00:10:00
The Diffusion Equation 00:10:00
Solutions to the Diffusion Equation – I 00:10:00
Solutions to the Diffusion Equation – II 00:10:00
Solutions to the Diffusion Equation – III 00:10:00
Activated Jump Processes 00:10:00
Diffusion Resulting from Discrete Jumps 00:10:00
Diffusion in Crystals 00:10:00
Atomic Models for Diffusivities – I 00:10:00
Atomic Models for Diffusivities – II 00:10:00
Short-Circuit Diffusion in Crystals 00:10:00
Diffusion in Noncrystalline Materials 00:10:00
Surface Evolution Due to Capillary Forces 00:10:00
Particle Coarsening 00:10:00
Grain Growth 00:10:00
Diverse Short Topics: Anisotropic Surfaces, Diffusional Creep, and Sintering 00:10:00
General Features of Phase Transformations 00:10:00
Spinodal Decomposition and Continuous Ordering 00:10:00
Spinodal Decomposition Kinetics 00:10:00
Nucleation 00:10:00
Heterogeneous Nucleation 00:10:00
Diffusional Growth 00:10:00
Morphological Stability of Moving Interfaces 00:10:00
Kinetics of Nucleation and Growth Transformations 00:10:00
Submit Your Assignment 00:00:00
Certification 00:00:00

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