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Superalloy
Effect of Microsctucture on Mechanical Properties of Co-Cr-W-Ni Superalloy
Superalloy Metallurgy a Gleeble Study Of
Effects of Aluminum Addition on the High Temperature Oxidation Behavior of CM-247LC Ni-Based Superalloy
MP35N: a Superalloy for Critical Oil and Gas Applications AUTHOR: THOMAS C
Hierarchical Microstructure Strengthening in a Single Crystal
Study of Characteristics of Plasma Nitriding and Oxidation of Superalloy
The Role of Niobium and Other Refractory Elements in Superalloys
Superalloy : Processing and Performance R
Superalloys for High Temperatures—A Primer
A Critical Review of High Entropy Alloys (Heas) and Related Concepts D.B
The Effect of Niobium Addition on the Microstructure and Tensile
Recent Trends in Superalloys Research for Critical Aero-Engine Components
The Effectiveness of a Nicry-Coating on a Powder Metallurgy Disk Superalloy
Supply Risk Considerations for the Elements in Nickel-Based Superalloys
A Review on Superalloys and IN718 Nickel-Based INCONEL Superalloy
Development of High Temperature Dissimilar Joint Technology for Fission Surface Power Systems
High Temperature Creep Behaviour of Cast Nickel-Based Superalloys INC 713 LC, B1914 and MAR-M247
Beyond Nickel-Base Superalloys
Top View
Effects of Cr, W, and Mo on the High Temperature Oxidation of Ni-Based
Processing and Compressive Creep of Cast Replicated IN792 Ni-Base Superalloy Foams
Comparison of Ceramic Vs. Advanced Superalloy Options for a Small Gas
Development of Oxide-Dispersion-Strengthened Nickel-Based Super Alloy Powders for Additive Manufacturing" (2018)
Superalloys, the Most Successful Alloy System of Modern Times-Past, Present, and Future
Material Product Data Sheet Nickel Chromium Tungsten Molybdenum Superalloy Powders
High Temperature Oxidation Behavior of [Gamma]- Ni+[Gamma]'-Ni3al Alloys and Coatings Modified with Pt and Reactive Elements Nan Mu Iowa State University
(At%) Superalloys ⁎ Peter J
ISOTHERMAL OXIDATION COMPARISON of THREE Ni-BASED SUPERALLOYS
Microstructural Degradation of the Almo0.5Nbta0.5Tizr Refractory Metal High-Entropy Superalloy at Elevated Temperatures
Superalloy Resources- Supply and Availability
Ductile Fracture Behavior of a Nickel-Based Superalloy and Thermally
Machinability of Nickel-Based Superalloys Using Ceramic Tools
High Temperature Mechanics of Aerospace Ceramic Composites Via Synchrotron Radiation
Utilization of Ceramic Filters to Produce Cleaner Superalloy Melts
Rapid Identification of Stainless Steel and Superalloy Scrap
Development of a Refractory High Entropy Superalloy
On Some Advanced Nickel-Based Superalloys for Disk Applications D
Oxidation and Hot Corrosion of Superalloys
Nickel Superalloy 718
A286 Datasheet
High Cycle Fatigue Studies of Carburized Nickel-Base Superalloys and Stainless Steels
Chromia Layer Growth on a Ni-Based Superalloy: Sub-Parabolic Kinetics and the Role of Titanium ⇑ S
Introduction
A History of Superalloy Metallurgy for Superalloy Metallurgists
Developing New Type of High Temperature Alloys–High Entropy Superalloys A.C Yeh1*, T
Of Tungsten-Fiber-Reinforced Superalloy Composites Using A
Superalloys Developed by SPS Technologies for Aerospace Fasteners
Progress Toward a Tungsten Alloy Wire/High Temperature Alloy Composite Turbine Blade
Superalloy Sensors
Ni-Cr-Mo Based Alloy Strip and Foil
Intrinsic Strength, Precipitation Hardening and Tribological Behavior of High-Entropy Alloys
Cast Structure in Alloy A286, an Iron-Nickel Based Superalloy
Review on Mechanical Thermal Properties of Superalloys and Thermal Barrier Coating Used in Gas Turbines
Niobium Base Superalloys: Achievement of a Coherent Ordered Precipitate Structure in the Nb Solid-Solution
Rhodium and Hafnium Influence on the Microstructure, Phase
Supply Risk Considerations for the Elements in Nickel-Based Superalloys
An Oxide Dispersion with Excellent High Strengthened Nickel-Base Temperature Strength* Superalloy
Advanced Ni-Base Superalloys for Small Gas Turbines
Newly Developed Niobium-Based Superalloys for Elevated Temperature Application
Material Product Data Sheet Tungsten Carbide / 12 % Cobalt – 25 % Nickel-Based Superalloy Thermal Spray Powder Blend