The net movement or diffusion of atoms and heat transport (and their interactions) in solids and liquids must surely represent the most basic processes in all of Materials Science and Engineering. This diffusion directly affects the very fabrication and properties of materials. Research of atoms and heat diffusion will continue to provide ways in discovering new materials, their properties, and determining how long they would last in service. Research in this area has been extremely popular in the area of Materials Science and Engineering. The present volume is entitled: "Mass and Thermal Transport in Engineering Materials III" and follows directly on from the previous volume in 2021. This volume again covers atoms and heat diffusion from the atomistic scale up to the macro-scale and represents a cross-section of the wide range of topics in this area.
The net movement or diffusion of atoms and heat transport (and their interactions) in solids and liquids must surely represent the most basic processes in all of Materials Science and Engineering. This diffusion directly affects the very fabrication and properties of materials. Research of atoms and heat diffusion will continue to provide ways in discovering new materials, their properties, and determining how long they would last in service. Research in this area has been extremely popular in the area of Materials Science and Engineering. The present volume is entitled: "Mass and Thermal Transport in Engineering Materials III" and follows directly on from the previous volume in 2021. This volume again covers atoms and heat diffusion from the atomistic scale up to the macro-scale and represents a cross-section of the wide range of topics in this area.
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ISBN-13
978-3-0364-1082-1 (9783036410821)
DOI
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Schweitzer Klassifikation
<ul><li>Preface</li><li>Chapter 1: Theoretical Investigations</li><li>Diffusion Laws and Modified Pascal's Triangles</li><li>Increasing the Certainty to Estimate 1-Gravity (1-<i>g</i>) Separation Time Based on any-<i>g</i> Force (<i>N</i>) and <i>g</i>- Equivalent Concepts</li><li>Hawking Radiation: Image of the Invisible</li><li>Chapter 2: Investigations of Structural Properties of Materials</li><li>Optimisation of Thermochemical Treatment of M2 High-Speed Steel</li><li>Influence of Cold Working on Hydrogen Diffusion Behaviour in an Austenitic Steel with Transformation-Induced Plasticity</li><li>Study of the Strength Characteristics of Agglomerate Depending on its Structure and Phase Composition</li><li>Diffusional Relaxation of Quadrupole Interactions of <sup>111</sup>In/ Cd Probes in IrIn<sub>3</sub> and Related Phases Having FeGa<sub>3</sub> Structure</li><li>Transmission Electron Microscopy Observation of the Fuel Cell Catalyst Degradation during the Oxygen Reduction Reaction</li><li>Effects of Niobium Microaddition on Carbon Steels</li><li>Precipitation Kinetic Analysis in a Maraging 350 Steel Using KJMA and Austin-Rickett Equations</li><li>Atomic Force Microscopy Applied to the Study of Metallic Glasses Alloys Based on CuZrAlEr and CuZrAl</li><li>Chapter 3: Nano-Scale Investigations</li><li>Synthesis of Pseudoboehmite Nanoparticles and Use in Simvastatin Drug Delivery</li><li>Impact of Graphene Nanofluid on Ionic Polarization in Reservoir Sandstone under Electric Double Layer</li><li>Movement of a Hydrogen Atom through Interstices in a Diamond-Like Lattice</li><li>Investigation into the Size Distribution of Al<sub>2</sub>O<sub>3</sub>- ZnO Nanoparticles Dispersed in DI Water and Following the Impact of CNTs on the Stability, Heat Transfer, and Electricity Transfer of Al<sub>2</sub>O<sub>3</sub>- ZnO-CNT Hybrid Nanofluid</li><li>Chapter 4: Investigations in the Liquid Phase</li><li>Diffusion: Isotope Effect and Manning Factor in Liquids</li><li>Stokes-Einstein Relation in Pure Alkali Metals and their Alloys</li><li>Pulsatile Bypass Flow by Means of Power Law and Newtonian Model: A Comparison Guided by Numerical Investigation</li><li>Chapter 5: Renewable Energy Investigations</li><li>Numerical Modeling of Pure and Metal-Foam Loaded PCMs</li><li>Constructal Design of a Two Ramps Overtopping Wave Energy Converter Integrated into a Breakwater: Effect of the Vertical Distance between the Ramps over its Performance</li></ul>
