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| U.S. Program on Materials Technology for Ultrasupercritical Coal-Fired Boilers | p. 1 |
| Creep-Rapture Behavior and Recrystallization in Cold-Bent Boiler Tubing for USC Applications | p. 16 |
| Refurbishment of Aged PC Power Plants with Advanced USC Technology | p. 29 |
| The Development of Electric Power and High Temperature Materials Application in China - An Overview | p. 46 |
| Consideration of Weld Behavior in Design of High Temperature Components | p. 59 |
| UltraGen: A Proposed Initiative by EPRI to Advance Deployment of Ultra-Supercritical Pulverized Coal Power Plant Technology with Near-Zero Emissions and CO[superscript 2] Capture and Storage | p. 82 |
| Feasibility of MARBN Steel for Application to Thick Section Boiler Components in USC Power Plant at 650 [degrees]C | p. 92 |
| Materials Solutions for Advanced Steam Power Plants | p. 107 |
| Creep Properties of Carbon and Nitrogen Free Austenitic Alloys for USC Power Plants | p. 119 |
| Development of High Strength HCMA (1.25Cr-0.4Mo-Nb-V) Steel Tube | p. 129 |
| Experience with the Use of P91 Steel and Development of Tools for Component Integrity/Life Assessment | p. 140 |
| Investigating the Strain Limits of Cold Formed, High Temperature Austenitic Materials for Fabricating USC Boiler Components | p. 153 |
| Creep Properties and Strengthening Mechanisms in 23Cr-45Ni-7W (HR6W) Alloy and Ni-Base Superalloys for 700[degrees]C A-USC Boilers | p. 168 |
| Long-Term Creep Properties and Microstructure of Super 304H, TP347HFG and HR3C for Advanced USC Boilers | p. 185 |
| Prediction of the Loss of Precipitation Strengthening in Modern 9-12% Cr Steels - A Numerical Approach | p. 197 |
| VM12 - A New 12%Cr Steel for Application at High Temperature in Advanced Power Plants - Status of Development | p. 208 |
| A New Improvement of Inconel Alloy 740 for USC Power Plants | p. 220 |
| Materials Qualification for 700 [degrees]C Power Plants | p. 231 |
| Study of Performance Requirements and Construction Rule for 700 Degree-C Class Advanced USC Plant | p. 260 |
| Nickel Alloys for High Efficiency Fossil Power Plants | p. 271 |
| Creep Properties of Advanced Steels for High Efficiency Power Plants | p. 281 |
| Life Management of Creep Strength Enhanced Ferritic Steels - Solutions for the Performance of Grade 91 Steel | p. 293 |
| Microstructure and Mechanical Properties Characteristics of Welded Joints Made of Creep- Resistant Steel with 12% Cr, V, W and Co Additions | p. 303 |
| Alloy 33: Update on Field Experience in Water Walls and Superheaters | p. 320 |
| Material Development and Mechanical Integrity Analysis for Advanced Steam Turbines | p. 338 |
| High Chromium Steel Forgings for Steam Turbines at Elevated Temperatures | p. 353 |
| Creep Behaviour and Microstructural Analysis of FB2 Trial Rotor Steel | p. 366 |
| Development of Low Thermal Expansion Ni Base Superalloy for Steam Turbine Applications | p. 377 |
| Manufacturing Experiences and Investigation of Properties of 12% Cr Steel Forgings for Steam Turbines | p. 391 |
| The Application of Ni-Base Alloy Nimonic 80A for Buckets of USC Steam Turbine in China | p. 402 |
| Materials and Component Development for Advanced Turbine Systems | p. 413 |
| Mechanical Properties and Manufacturability of Ni-Fe Base Superalloy (FENIX-700) for A-USC Steam Turbine Rotor Large Forging | p. 424 |
| Development of Ni-Based Superalloy for Advanced 700[degrees]C-Class Steam Turbines | p. 434 |
| Nano-Structured Erosion Resistant Coatings for Gas and Steam Turbines | p. 447 |
| The Steamside Oxidation Behavior of Candidate USC Materials at Temperatures between 650[degrees]C and 800[degrees]C | p. 471 |
| Effects of Fuel Composition and Temperature on Fireside Corrosion Resistance of Advanced Materials in Ultra-Supercritical Coal-Fired Power Plants | p. 488 |
| Impact of Steam-Side Oxidation on Boiler Heat Exchanger Tubes Design | p. 507 |
| Steamside Oxidation Behavior of Experimental 9%Cr Steels | p. 520 |
| An Investigation of Key Experimental Parameters in Steam Oxidation Testing and the Impact They Have on the Interpretation of Experimental Results | p. 531 |
| Role of Minor Compositional Variation in Oxidation 'Cr-Mo' Steels | p. 544 |
| Creep Strength of High Cr Ferritic Steels Designed Using Neural Networks and Phase Stability Calculations | p. 551 |
| Ferritic and Austenitic Grades for New Generation of Steam Power Plants | p. 564 |
| The Use of Advanced Materials on Large Steam Turbines in Supercritical Steam Cycles in the Czech Republic | p. 582 |
| Service Experience with A Retrofit Modified 9Cr (Grade 91) Steel Header | p. 590 |
| Stress Dependence of Degradation and Creep Rupture Life of Creep Strength Enhanced Ferritic Steels | p. 601 |
| The Estimation of Residual Life of Low-Alloy Cast Steel Cr-Mo-V Type after Long-Term Creep Service | p. 616 |
| Application of a Comprehensive R&D Concept to Improve Long-Term Creep Behaviour of Martensitic 9-12% Cr Steels | p. 627 |
| Novel Hafnium-Containing Steels for Power Generation | p. 645 |
| The Role of Creep-Fatigue in Advanced Materials | p. 658 |
| Microstructural Characterization of Modern Martensitic Steels | p. 675 |
| Towards A Standard for Creep Fatigue Testing | p. 689 |
| ECCC Rupture Data for Austenitic Stainless Steels - Experiences Gained with Demanding Data Analyses | p. 702 |
| Long-Term Crack Behavior under Creep and Creep-Fatigue Conditions of Heal Resistant Steels | p. 718 |
| A Design Perspective of Elevated Temperature Material Behaviour | p. 733 |
| Improved Methods of Creep-Fatigue Life Assessment of Components | p. 748 |
| Failure Behavior of High Chromium Steel Welded Joints under Creep and Creep-Fatigue Conditions | p. 762 |
| Prediction of In-Service Stress States of Single Crystal Superalloys Based on Mathematical Analyses of y/y' Microstructural Morphologies | p. 783 |
| Advances in Welded Creep Resistant 9-12% Cr Steels | p. 790 |
| 16-8-2 and Other Weld Metal Compositions That Utilize Controlled Residual Elements to Enhance and Maintain Elevated Temperature Creep Strength | p. 809 |
| Weldability Investigation of Inconel Alloy 740 for Ultrasupercritical Boiler Applications | p. 818 |
| Behavior of New Pipe Steels and Their Welds in Modern High Efficiency Power Stations with High Steam Parameter | p. 830 |
| Welding of Dissimilar Joints of New Power Plant Steels | p. 863 |
| Improvement of Creep Rupture Strength of 9Cr1MoNbV Welded Joints by Post Weld Normalizing and Tempering | p. 874 |
| Selection of Erosion Resistant Materials in the Severe Environment of Coal Fired Power Plants | p. 884 |
| Alloys for Advanced Steam Turbines - Oxidation Behavior | p. 897 |
| The Heat Affected Zone of Boron Alloyed Creep Resistant 9% Chromium Steels and Their Susceptibility to Type IV Cracking | p. 914 |
| Simplified Methods for High Temperature Weld Design and Assessment for Steady and Cyclic Loading | p. 927 |
| Alternative Filler Materials for DMWs Involving P91 Materials | p. 940 |
| Overview of Oxy-Combustion Technology for Utility Coal-Fired Boilers | p. 968 |
| Fireside Corrosion Study Using B&W Clean Environment Development Facility for Oxy-Coal Combustion Systems | p. 982 |
| Design Considerations for Advanced Materials in Oxygen-Fired Supercritical and Ultra-Supercritical Pulverized Coal Boilers | p. 993 |
| Author Index | p. 1001 |
| Subject Index | p. 1005 |
| Table of Contents provided by Blackwell. All Rights Reserved. |
