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Fatigue and Fracture Behavior of High Temperature Materials
by P.K. Liaw and M. Huang, editors
 
 
Publisher:TMS
Product Format:Print Book
Pages: 372
Date published:02/01/2001
ISBN:978-1-1180-0038-0
Related Products:Print Book: Elevated Temperature Coatings: Science and Technology IV
Out of print and not available electronically: Gamma Titanium Aluminides 2003
Print Book: Superalloys 718, 625, 706, and Various Derivatives (2005)
Contents:[pp. 1-8]Mechanisms of High-Temperature Fatigue and Fracture in Silicon Carbide Ceramics[pp. 9-16]High Frequency Fatigue Crack Propagation in the Nickel-base Superalloy KM4 at High Temperatures[pp. 17-24]Fracture and Fatigue-Crack Growth Behavior in Mo-12Si-8.5B Intermetallics at Ambient and Elevated Temperatures[pp. 25-36]Temperature Evolution and Fatigue Damage of Reactor PressureVessel (RPV) Steels[pp. 37-40]Effect of Frequency and Specimen Self-Heating on the Fatigue Life of Type 316 LN Stainless Steel[pp. 41-48]An Investigation of the Effects of Temperature on Fatigue Crack Growth in Cast LamellarTM XD Gamma Alloy[pp. 49-58]An Investigation of the Effects of Loading Rate on Resistance-Curve Behavior and Toughening in Cast Lamellar XD™ Gamma Alloys[pp. 59-70]Damage Assessment of Ceramic Matrix Composites by Nondestructive Evaluation Techniques[pp. 71-76]High-Temperature Cyclic Fatigue-Crack Growth in Monolithic Ti3SiC2 Ceramics[pp. 77-84]Low-Cycle Fatigue of Ultimet Alloy[pp. 85-94]Influence of Hold Time and Temperature on Low-Cycle Fatigue Behavior of Cobalt- Based Superalloy Haynes® 188[pp. 95-96]Orientation Dependence of Directional Coarsening in a Single Crystal Nickel-Base Superalloy[pp. 97-98]In-Situ TEM Observation of Crack Propagation in a Single Crystal Ni
 
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Description
This proceedings volume will help students, researchers, and practicing engineers develop a fundamental understanding of fatigue and fracture behavior of high-temperature materials including superalloys, intermetallics, ceramics, and composites. The theme of the symposium covered: mechanistic understanding of fatigue behavior; mechanistic understanding of fracture characteristics; investigations of fatigue and fracture mechanisms and damage assessment; fatigue crack initiation and growth mechanisms; effects of temperature, interface, loading, processing, and microstructure; life prediction methodology; modeling of fatigue and fracture behavior.

NOTE: This book is produced on uncoated stock via high-quality black-and-white photocopying. It features soft covers and tape binding and is prepared with a three-hole punch on the left.

A collection of papers from the 2000 TMS Fall Meeting, held in St. Louis, Missouri, October 8-12, 2000.

To gain a flavor of the content of the volume, a number of supporting pages (e.g., table of contents, subject index) are available for complimentary download in portable document format.

The book can be purchased on CD-ROM, or in downloadable portable document format (on a whole-volume or paper-by-paper basis).

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Copper Nickel and Cobalt
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