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Meeting 2017 TMS Annual Meeting & Exhibition
Symposium Energy Materials 2017: Materials for Coal-Based Power
Presentation Title Predicting Microstructure-Creep Resistance Correlation in High Temperature Alloys Over Multiple Time Scales
Author(s) Vikas Tomar
On-Site Speaker (Planned) Vikas Tomar
Abstract Scope DoE-NETL is partnering with Purdue University to predict the creep and associated microstructure evolution of tungsten-based refractory alloys. Researchers use grain boundary (GB) diagrams, a new concept, to establish time-dependent creep resistance and associated microstructure evolution of grain boundaries/intergranular films GB/IGF controlled creep as a function of load, environment, and temperature. The goal is to conduct a systematic study that includes the development of a theoretical framework, multiscale modeling, and experimental validation using W-based body-centered-cubic alloys, doped/alloyed with one or two of the following elements: nickel, palladium, cobalt, iron, and copper—typical refractory alloys. Prior work has already established and validated a basic theory for W-based binary and ternary alloys; the study conducted under this project extends this proven work. Based on interface diagrams phase field models are developed to predict long term microstructural evolution. In order to validate the models nanoindentation creep data is used.
Proceedings Inclusion? Planned: Stand-alone book in which only your symposium’s papers would appear (indicate title in comments section below)

OTHER PAPERS PLANNED FOR THIS SYMPOSIUM

A New Austenitic Heat-Resisting Steel SP2215 for 620-630℃ USC Boiler Tubing Application
Accelerated Creep Test for New Steels and Welds
Advances in Materials Technology to Enable Advanced Ultrasupercritical (A-USC) and Supercritical CO2 (sCO2) Power Cycles
Alloy Design of Creep-resistant High Entropy Alloys for Elevated-Temperature Applications
C-3: Atomic-scale Modeling of Point Defects, Phase Stability, and the Formation Mechanism of Z Phases CrMN (M=V, Nb, Ta)
C-5: Fireside Corrosion Behaviors of Inconel 740 H Superalloy in Various SO2 Contents
C-6: High Cycle Fatigue Behavior of HAYNES282 Superalloy
C-7: Recent Development in the Characteristics of Alloy 625 for A-USC Steam Turbine Castings
C-8: The Effect of W and Mo Addition on the Microstructure and Mechanical Properties of GY200 Ni-based Alloy
Continued Development of a Cast Superalloy, IN740 for Advanced Power Generation Applications
Corrosion Issues in Advanced Supercritical and Ultra Supercritical Coal Fired Boilers
Creep Behavior and Microstructural Stability in Cast γ' Strengthened Nickel Superalloys
Creep of Alumina-forming Austenitic Stainless Steels
Creep Strength and Oxidation Resistance of Industrially Made G115 Steel Pipe
Design and Performance of Nickel-Base Alloys Strengthened by Eta Phase Precipitates
Developing a Crystal Plasticity Model for Nickel Based Turbine Alloys Based on the Discrete Element Method
Development of Wrought Ni-Cr-Al Alloy with High Temperature Corrosion Resistance
Evolution of Precipitates of 25Cr-20Ni-3Cu3WNbN Austenitic Heat Resistant Steel during 973K Aging
Heat Resistant Advanced 9% Cr Steel for Fossil Energy Power Generation
Heat Resistant Alloy Design: Process Considerations for Microstructural Stability and Long-term Creep Strength in Scaled-Up, Thick Wall Nickel Castings
Materials and Manufacturing Challenges for Components of Supercritical CO2 Power Systems
Materials for Advanced Ultra Supercritical Steam Turbines
Materials Performance in Supercritical CO2 in Comparison with Atmospheric Pressure CO2 and Supercritical Steam
Micro Creep and Fatigue Behaviors in an Advanced Austenitic Stainless Steel
Modeling Long-term Creep Performance for Welded Nickel-base Superalloy Structures for Power Generation Systems
Ni-Fe Based Alloy GH984G Used for 700℃ Coal-fired Power Plants
Predicting Microstructure-Creep Resistance Correlation in High Temperature Alloys Over Multiple Time Scales
Solid Sate Joining of Creep Strength Enhanced Ferritic Steels
Study of Localized Under-coal Ash Deposit Corrosion of Inconel 740 Alloy Using High Temperature Electrochemical Sensor
The Reliability Analysis of 12Cr1MoVG and T23 Used for USC Boilers Water Wall
The SMARTER Project – Science of Multicomponent Alloys: Roadmap for Theoretical and Experimental Research
Towards Predicting Reactive-element Tolerances in the Compositional Design of Al2O3-scale Forming Alloys and Coatings

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