Lithium-containing aluminum alloys: cyclic fracture
- 1 March 1985
- journal article
- Published by Springer Nature in Metallurgical Transactions A
- Vol. 16 (3) , 475-477
- https://doi.org/10.1007/bf02814350
Abstract
No abstract availableThis publication has 9 references indexed in Scilit:
- Fatigue crack deflection and fracture surface contact: Micromechanical modelsMetallurgical Transactions A, 1985
- Fatigue crack growth behavior of aluminum alloy 2020 (AlCuLiMnCd)Materials Science and Engineering, 1984
- Mechanisms of Slow Fatigue Crack Growth in High Strength Aluminum Alloys: Role of Microstructure and EnvironmentMetallurgical Transactions A, 1984
- Crack deflection: Implications for the growth of long and short fatigue cracksMetallurgical Transactions A, 1983
- Influence of corrosion deposits on near-threshold fatigue crack growth behavior in 2xxx and 7xxx series aluminum alloysMetallurgical Transactions A, 1982
- THE EFFECT OF ENVIRONMENT ON FATIGUE CRACK GROWTH BEHAVIOR OF 2021 ALUMINUM ALLOYFatigue & Fracture of Engineering Materials & Structures, 1982
- Oxide-Induced Crack Closure: An Explanation for Near-Threshold Corrosion Fatigue Crack Growth BehaviorMetallurgical Transactions A, 1981
- The effect of copper content and degree of recrystallization on the fatigue resistance of 7XXX-type aluminum alloys II. Fatigue crack propagationMaterials Science and Engineering, 1980
- Precipitation Characteristics of Aluminium-Lithium AlloysMetal Science Journal, 1971