<ul><li>Preface</li><li>Chapter 1: Gas Metal Arc Welding</li><li>Some Peculiarities of MIG-MAG Welding Processes with Concentrated Energies</li><li>Reintroduction in the Process of Operation of Worn Metal Assemblies, from the Composition of Public Transport Vehicles, Using Mechanized MIG/MAG (GMA) Welding Reconditioning, in Conditions of Guaranteeing Traffic Safety</li><li>Comparison between Modelled Influence of GMAW Parameters and Corresponding Mechanical Properties of Group 1 and 2 According to ISO/TR 15608 Steel T Joints</li><li>Correlation between GMAW Parameters and Mechanical Properties of Hot-Rolled, High-Strength Low-Alloy (HSLA) Steel Butt Joints</li><li>Effect of the Welding Thermal Cycles Based on Simulated Heat Affected Zone of S1300 Ultrahigh Strength Steel</li><li>Chapter 2: Friction Stir Processing</li><li>FSW-US Hybrid Process Joining of Engineering Materials</li><li>Possibilities to Apply Friction Stir Processing FSP in Surface Engineering</li><li>Processes Developed Based on Friction Stir Welding Process</li><li>Ecological Joining Process of AZ31B Magnesium Alloy</li><li>ISIM Contributions to the Development of Friction Welding Procedures</li><li>Experiments on Friction Stir Processing (FSP), with Tilted Parent Metal</li><li>Friction Stir Welding of Steel Structures - A Brief Review</li><li>Characteristics of Steels Joints Obtained by the FSW Process - A Brief Review</li><li>Chapter 3: Nonconventional Materials Processing Technologies</li><li>Study Regarding Process of the Electrical Discharge Machining with Magnetic Activation of the Welded Joints of some Materials High Alloy Steel</li><li>ISIM Own Contributions on Non-Conventional Abrasive Waterjet Cutting Technologies</li><li>FDM 3D Printing Process - Risks and Environmental Aspects</li><li>Resistive-IR Hybrid Heating in FDM Printing</li><li>Evaluation of the Behavior and Resistance to Cavitation Erosion of the Structure of the CuSn12-C Bronze Obtained by Thermal Treatment of Quenching and Tempering</li><li>New Results of the Heat-Treated CuZn39Pb3 Brass Behavior and Resistance to Cavitation Erosion</li><li>Chapter 4: Shielded Metal Arc Welding and Submerged Arc Welding</li><li>Intelligent Materials and their Direction of Use</li><li>Numerical Modeling for the Submerging Arc Welding of S700MC Steel</li><li>Effect of the Root Gap on the Structure and Properties of High Strength Steel S700MC Welds</li></ul>
