Fracture Mechanics
- 1 June 1983
- book chapter
- Published by ASM International
Abstract
This chapter reviews the concepts of fracture mechanics and their application to materials evaluation and the design of cryogenic structures. Emphasis is placed on an explanation of technology, a review of fracture mechanics testing methods, and a discussion on the many factors contributing to the fracture behavior of materials at cryogenic temperatures. Three approaches of elastic-plastic fracture mechanics are covered, namely the crack opening displacement, the J-integral, and the R-curve methods. The chapter also discusses the influence of thermal and metallurgical effects on toughness at low temperatures.Keywords
This publication has 38 references indexed in Scilit:
- Fracture Mechanics Parameters for a 5083-0 Aluminum Alloy at Low TemperaturesJournal of Engineering Materials and Technology, 1977
- Fracture Mechanics in the Elastic-Plastic RegimePublished by ASTM International ,1977
- Fracture testing and results for a Ti-6A1-4V alloy at liquid helium temperatureEngineering Fracture Mechanics, 1976
- Mechanical properties of polymers at cryogenic temperatures: relationships between relaxation, yield and fracture processesPolymer, 1974
- Comparison of R-Curves Determined from Different Specimen TypesPublished by ASTM International ,1973
- R-Curve Determination Using a Crack-Line-Wedge-Loaded (CLWL) SpecimenPublished by ASTM International ,1973
- The static and dynamic low-temperature crack-toughness performance of seven structural steelsEngineering Fracture Mechanics, 1971
- Some aspects of environment-enhanced fatigue-crack growthEngineering Fracture Mechanics, 1970
- Numerical Analysis of Crack Propagation in Cyclic-Loaded StructuresJournal of Basic Engineering, 1967
- Fracture Mode Transition for a Crack Traversing a PlateJournal of Basic Engineering, 1960