AvE4EvA, 2015. — VII, 336 p. — ISBN-10: 953-51-2212-6; ISBN-13: 978-953-51-2212-8. This book collects new developments about superalloys. Superalloy, or high-performance alloy, is an alloy that exhibits several key characteristics: excellent mechanical strength, resistance to thermal creep deformation, good surface stability, and resistance to corrosion or oxidation. The crystal structure is typically face-centered cubic austenitic. Superalloy development has relied heavily on both chemical and process innovations. Superalloys develop high temperature strength through solid solution strengthening. An important strengthening mechanism is precipitation strengthening which forms secondary phase precipitates such as gamma prime and carbides. Oxidation or corrosion resistance is provided by elements such as aluminium and chromium. Contents Preface Thermal-Assisted Machining of Nickel-based Alloy Spectroscopic and Optoelectronic Properties of Hydrogenated Amorphous Silicon-Chalcogen Alloys Superalloys for Advanced Ultra-Super-Critical Fossil Power Plant Application Precipitation Process in Fe-Ni-Al-based Alloys Welding Metallurgy of Corrosion-Resistant Superalloy C-276 Analysis of the Precipitation and Growth Processes of the Intermetallic Phases in an Fe-Ni Superalloy Assessment of Dental Alloys by Different Methods Phase Equilibrium Evolution in Single-Crystal Ni-Based Superalloys Modeling and Simulation of Shape Memory Alloys using Microplane Model Comparison of Additive Technologies for Gradient Aerospace Part Fabrication from Nickel-Based Superalloys Characterization of Intermetallic Precipitates in Ni-Base Alloys by Non-destructive Techniques Coatings for Superalloys Properties of the Ultrathin Multilayer Ground State of Fe/Pd Mechanical Properties of the Thermal Barrier Coatings Made of Cobalt Alloy MAR-M509 Superalloy, Or High-performance Alloy, Is An Alloy That Exhibits Several Key Characteristics: Excellent Mechanical Strength, Resistance To Thermal Creep Deformation, Good Surface Stability, And Resistance To Corrosion Or Oxidation. The Crystal Structure Is Typically Face-centered Cubic Austenitic. Superalloy Development Has Relied Heavily On Both Chemical And Process Innovations. Superalloys Develop High Temperature Strength Through Solid Solution Strengthening. An Important Strengthening Mechanism Is Precipitation Strengthening Which Forms Secondary Phase Precipitates Such As Gamma Prime And Carbides. Oxidation Or Corrosion Resistance Is Provided By Elements Such As Aluminium And Chromium. This Book Collects New Developments About Superalloys.