<ul><li>Preface</li><li>Invited Lectures</li><li>Development of Materials for Solid State Hydrogen Storage</li><li>Slag from Modern Copper Production Found in Bergwerk, Burgenland, Austria</li><li>Influence of Surface Machining on Development of Stress Corrosion Cracking of Distribution Wheels of Main Circulation Pump in Nuclear Power Plants</li><li>Chapter 1: Microstructure, Properties and Processing of Structural Materials</li><li>Processing and Mechanical Properties of (Hf-Ta-Zr-Nb-Ti)C</li><li>Application of Composite Filament with the Addition of Metallic Powders in 3D Printing</li><li>Highly Accurate Structural Analysis of Austempered Ductile Iron Using EBSD Technique</li><li>Optimization of the Manufacturing Process of Sintered Fe-Mn-Cr-Mo-C Steels Using ANOVA</li><li>Direct Production of Tin Bronzes from Copper and Cassiterite</li><li>Microstructure-Properties Characterization of Selective Laser Melted Biomedical Co-28Cr-6Mo Alloy</li><li>Effect of Rare-Earth Doping on Dynamic Magnetic Properties of FeGa Alloy</li><li>Optimization of Raster Point Deposition Methodology for Deformation Analyses</li><li>Formation of Alpha-Case Layer during Oxidation of Ti6Al4V Surface by Annealing at 1050 degreesC and Change of Microstructure after Different Cooling Rates</li><li>Microstructure Analysis of Progressive Secondary AlSi7Mg0.6 Alloy with Higher Fe Content Using Electron Metallography Techniques</li><li>Comparison of Microstructure and Properties of Nickel-Copper Alloy Prepared by Casting and Laser Powder Bed Fusion Process</li><li>Formation of Sulphides in As-Cast GOES Thin Strips</li><li>Characterisation of a San Mai Steel Composite for the Manufacture of Knives</li><li>Numerical Simulation of the Welding Process during the Main Circulation Pump Impeller Repair</li><li>A Study of Cut Surface after the Abrasive Water Jet Application on the MS1 Material Prepared by DMLS Method</li><li>The Influence of Progressive Cladding Technologies on Layers Quality</li><li>Chapter 2: Corrosion</li><li>Identification of Corrosion Mechanisms of Stainless Steel with Metallography Cross Sections</li><li>Influence of Cavitation in Seawater on the Etching Attack of Manganese-Aluminum-Bronzes</li><li>Chapter 3: Fractographic Analysis</li><li>Microstructure and Fatigue Behavior of High-Performance Aluminum Alloy Al2024 Produced by Laser Powder Bed Fusion</li><li>Analysis of Cracks of Thermostats Casings Made of Brass</li><li>The Fractographic Analysis of Tensile and Fatigue Fracture Surfaces in Secondary A356 Aluminum Alloy with a Higher Concentration of Iron</li><li>Fracture Mechanisms of Austenitic Steel Caused by Dynamic Tests</li><li>High-Temperature Low Cycle Fatigue of Nickel-Based Superalloy IN738LC</li><li>Metallography of Fractured Aluminium Alloys for the Transmission System ?s Elements</li><li>Investigation of Fatigue Failure in Electric Locomotive Axle</li><li>Dynamic Fracture Characteristics of High-Strength Steel</li><li>Creep Resistance and Microstructure Evolution in HR3C-P92 Heterogeneous Welds</li><li>Analysis of Tribodegradation Factors Limiting the Life of the Molds</li><li>Chapter 4: Nanomaterials and Nanotechnologies</li><li>Preparation and Fracture Analysis of Advanced Layered Composite with Graphene-Coated Alumina Nanofibers</li><li>Influence of Ligands on Physicochemical Characteristics of Magnetic Nanoparticles</li><li>Carbon Fibers Doped by Binary Phosphides as an Electrocatalytic Layer for PEM Electrolysers</li><li>Chapter 5: Sample Preparation for Metallography</li><li>Evaluation of Sample Preparation Importance for Digital Image Correlation during Cold Deformation</li><li>Automation of Metallographic Sample Etching Process</li></ul>
