论文信息 - Oxidation effects on the fatigue crack growth behaviour of alloy 718 at high temperature

Oxidation effects on the fatigue crack growth behaviour of alloy 718 at high temperature

Abstract The purpose of this study was to investigate oxidation assisted crack growth phenomena encountered in nickel-based alloys at high temperatures. Fatigue crack growth tests conducted at 650°C and under a range of oxygen partial pressures revealed the existence of a transition pressure. This pressure is in no way correlated to the loading conditions, but rather it varies with the chromium content in the alloy, and is furthermore directly linked to the oxidation mechanisms which were identified by using analytical TEM. By means of specific mechanical tests, superimposing a square wave oxygen pressure cycle to a fatigue or creep-fatigue mechanical cycle, various fundamental aspects of the local interaction between oxidation and deformation at the crack tip were investigated. Embrittlement is due partly to the nickel oxide nucleation and partly to the stress relaxation ability of the material. Chemical and microstructural modifications are recommended in order to improve the cracking resistance.

[1] Lf Coffin,et al. FATIGUE AT HIGH TEMPERATURE , 2013 .

[2] P. Liaw,et al. Effects of load and thermal histories on mechanical behavior of materials; Proceedings of the Symposium, Denver, CO, Feb. 25, 26, 1987 , 1987 .

[3] Per Kofstad,et al. High Temperature Corrosion , 1988 .

[4] H. Fraser,et al. Oxidation-induced defects in NiAl , 1973 .

[5] N. McIntyre,et al. Characterization of oxide structures formed on nickel-chromium alloy during low pressure oxidation at 500–600°C , 1990 .

[6] E. Lang. The Role of active elements in the oxidation behaviour of high temperature metals and alloys , 1989 .

[7] H. Ghonem,et al. Influence of Prolonged , 1992, Metallurgical and Materials Transactions A.

[8] M. Hordon. Fatigue behavior of aluminum in vacuum , 1966 .

[9] A. Pineau,et al. ELEVATED TEMPERATURE FATIGUE CRACK GROWTH IN ALLOY 718—PART II: EFFECTS OF ENVIRONMENTAL AND MATERIAL VARIABLES , 1993 .

[10] R. H. Bricknell,et al. The embrittlement of nickel following high temperature air exposure , 1981 .

[11] A. Pineau,et al. ELEVATED TEMPERATURE FATIGUE CRACK GROWTH IN ALLOY 718—PART I: EFFECTS OF MECHANICAL VARIABLES , 1993 .