The atomic and heat transport rates in solids and liquids surely represent the most basic processes in materials science and engineering because these rates affect most fabrication and properties of materials. Research in mass and thermal transport will continue to provide substantial insights into discovering new materials, their properties, and determining how long they would last in service. Research in this area has been especially popular in the area of materials science and engineering. The present special topic volume is entitled: "Mass and Thermal Transport in Engineering Materials II" and follows on from the previous volume in 2020.
The atomic and heat transport rates in solids and liquids surely represent the most basic processes in materials science and engineering because these rates affect most fabrication and properties of materials. Research in mass and thermal transport will continue to provide substantial insights into discovering new materials, their properties, and determining how long they would last in service. Research in this area has been especially popular in the area of materials science and engineering. The present special topic volume is entitled: "Mass and Thermal Transport in Engineering Materials II" and follows on from the previous volume in 2020.
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978-3-0357-2867-5 (9783035728675)
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Schweitzer Klassifikation
<ul><li>Preface</li><li>Chapter 1: Analytical and Numerical Approaches in Diffusion Processes</li><li>On the Analytical Inversion of Solver Matrices Used in Numerical Approximations for the Diffusion Equation</li><li>The Effect of Flux Dysconnectivity Functions on Concentration Gradients Changes in a Multicomponent Model of Convectional Reaction-Diffusion by the Example of a Neurovascular Unit</li><li>Numerical Solution Strategies in Permeation Processes</li><li>Intrinsic Diffusivities Ratio Analysis in Double Multiphase Systems</li><li>Prediction of Structural and Magnetic Properties of Nanocrystalline Mechanically Alloyed Fe-Ni Powders Using Multi-Gene Genetic Programming Approach</li><li>Chapter 2: Diffusion Involving Porosity</li><li>Dynamics and Geometry Effects on the Capillary Flows in Porous Media for Enhanced Oil Recovery</li><li>Influence of Diffusion through a Porous Film under Electrode Surface in Chronoamperometry Problems</li><li>Movement and Diffusion of the Helium Atom in Nanostructures (in Pores) with Water</li><li>Membrane Covered Probes for O<sub>2</sub> and H<sub>2</sub> Determination - Diffusion through Liquid Films and Solid Membrane in Practice</li><li>Chapter 3: Analysis of Diffusion Processes</li><li>Diffusion in Metallic Glasses and in Oxide Glasses - An Overview</li><li>Lithium Tracer Diffusion in Sub-Stoichiometric Layered Lithium-Metal-Oxide Compounds</li><li>The Diffusion Isotope Effect and Diffusion Mechanism in Liquid Cu-Ag and Cu-Ni Alloys</li><li>The Impact of Matrix Cross-Linking Degree on Chemo-Resistive Properties of Natural Rubber-Carbon Nanostructure Composite</li><li>Chapter 4: Materials Processing and Treatment</li><li>Analysis of the Influence of the Degree of Reduction of Iron Ore Materials on the Shape and Location of the Cohesion Zone in a Blast Furnace</li><li>Characterisation of the Microstructure of Plain Carbon Steel Formed during Isothermal and Continuous Cooling Following Austenitisation</li><li>Effect of Rolling Orientation on the Microstructure and Mechanical Properties of AZ31B Mg Alloy</li><li>Study on the Wear of Cutting-Tools Used in Dry Machining of Cu-10wt%Al-5wt%Ni-5wt%Fe Alloy</li><li>The Role of Basicity in the Formation of the Structure and Properties of Iron Ore Agglomerates</li><li>Microwave Absorption Properties of Fe<sub>40</sub>Co<sub>60</sub> Based Nanocomposites</li><li>Precipitation Effects in Cast, Heat-Treated and Cold-Rolled Aluminium AA7075 Alloy with Sc,Zr-Addition</li></ul>
