Mass Transport in Solids and FluidsCambridge University Press, 2 lis 2000 The field of matter transport is central to understanding the processing of materials and their subsequent mechanical properties. While thermodynamics determines the final state of a material system, it is the kinetics of mass transport that governs how it gets there. This book, first published in 2000, gives a solid grounding in the principles of matter transport and their application to a range of engineering problems. The author develops a unified treatment of mass transport applicable to both solids and liquids. Traditionally matter transport in fluids is considered as an extension of heat transfer and can appear to have little relationship to diffusion in solids. This unified approach clearly makes the connection between these important fields. This book is aimed at advanced undergraduate and beginning graduate students of materials science and engineering and related disciplines. It contains numerous worked examples and unsolved problems. The material can be covered in a one semester course. |
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... the diffusion equation. This bookisaimed at studentsof materials science and engineering and related disciplinessuch as metallurgy and ceramics. It contains numerous worked examples and unsolved problems. The material issuitable ...
... the diffusion equation. This bookisaimed at studentsof materials science and engineering and related disciplinessuch as metallurgy and ceramics. It contains numerous worked examples and unsolved problems. The material issuitable ...
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... of diffusion 1.4 Diffusion in solids 1.4.1 Interstitial diffusion 1.4.2 Vacancy diffusion 1.4.3 Diffusion inalloys 1.4.4 Diffusion in compounds 1.5 Diffusion inliquids 1.6 Diffusion ingases 1.7 Diffusion data 1.8 Mass transport by ...
... of diffusion 1.4 Diffusion in solids 1.4.1 Interstitial diffusion 1.4.2 Vacancy diffusion 1.4.3 Diffusion inalloys 1.4.4 Diffusion in compounds 1.5 Diffusion inliquids 1.6 Diffusion ingases 1.7 Diffusion data 1.8 Mass transport by ...
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... the diffusion process. For example, you know intuitively that if you stir the water after adding the dye, the dye willmix much more quickly. Stirring, which induces convection inthe liquid, forces regionsof high and lowdye concentration ...
... the diffusion process. For example, you know intuitively that if you stir the water after adding the dye, the dye willmix much more quickly. Stirring, which induces convection inthe liquid, forces regionsof high and lowdye concentration ...
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... the diffusion of interstitial atoms since this is the simplest to understand. Soluteatoms which are muchsmallerthan the hostenterthe lattice interstitially (see Fig. 1.2). The solubility ofsuch atoms is, however, usually rather limited ...
... the diffusion of interstitial atoms since this is the simplest to understand. Soluteatoms which are muchsmallerthan the hostenterthe lattice interstitially (see Fig. 1.2). The solubility ofsuch atoms is, however, usually rather limited ...
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... diffusion coefficient is given by (1.8) where the subscript 'i' is used throughout to indicate that these terms refer specifically to the interstitial mechanism of diffusion. We can determine the temperature dependence of the diffusion ...
... diffusion coefficient is given by (1.8) where the subscript 'i' is used throughout to indicate that these terms refer specifically to the interstitial mechanism of diffusion. We can determine the temperature dependence of the diffusion ...
Spis treści
Steadystate diffusion 2 1 Ficks FirstLaw 2 2 Applications to steadystate problems | |
Transient diffusion problems | |
concentration Cs 3 6 2 Uniform initial | |
materials engineering | |
Applications involving | |
Heat treatmentofbinary alloys | |
Diffusion in concentrated alloysand fluids | |
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