The superalloys were heat-treated so as to obtain various microstructures. The H permeability (tables 115 and 116) and diffusivity (tables 117 and 118) were then determined by using a gaseous H permeation technique to study the effect of the microstructure upon the permeation behavior at temperatures ranging from 210 to 430C. It was shown that the temperature dependences of H permeability and diffusivity obeyed an Arrhenius law, and that the precipitated strengthening phases hardly affected the H permeation and diffusion behavior in IN718, but the H permeability and diffusivity in the aged condition were all slightly lower than those in the solution-treated condition for GH761.
J.Xu, X.K.Sun, Q.Q.Liu, W.X.Chen: Metallurgical Transactions A, 1994, 25[3], 539-44
Table 115
Permeability of H in IN718
Heat Treatment | Po (mol/msMPa½) | E (kJ/mol) |
cold-rolled 75% | 0.000198 | 59.03 |
980C, 2h; a | 0.000236 | 60.19 |
980C, 2h; a; 720C, 8h; f; 620C 8h; a | 0.000212 | 59.53 |
980C, 2h; a; 720C, 100h; a | 0.000259 | 62.69 |
a: air-cooled, f: furnace-cooled
Table 116
Permeability of H in GH761
Heat Treatment | Po (mol/msMPa½) | E (kJ/mol) |
1090C, 2h; w | 0.000352 | 63.45 |
1090C, 2h; w; 850, 4h; a | 0.000177 | 62.39 |
1090C, 2h; w; 850, 4h; a; 750C, 24h; a | 0.0000890 | 58.23 |
1090C, 2h; w; 770, 4h; a | 0.000777 | 70.57 |
a: air-cooled, f: furnace-cooled, w: quenched
Table 117
Diffusivity of H in IN718
Heat Treatment | Do (m2/s) | E (kJ/mol) |
cold-rolled 75% | 2.82 x 10-7 | 45.82 |
980C, 2h; a | 1.82 x 10-7 | 45.30 |
980C, 2h; a; 720C, 8h; f(50C/h); 620C 8h; a | 6.16 x 10-7 | 51.22 |
980C, 2h; a; 720C, 100h; a | 8.33 x 10-7 | 52.05 |
a: air-cooled, f: furnace-cooled
Table 118
Diffusivity of H in GH761
Heat Treatment | Do (m2/s) | E (kJ/mol) |
1090C, 2h; w | 4.61 x 10-7 | 49.80 |
1090C, 2h; w; 850, 4h; a | 1.91 x 10-7 | 60.93 |
1090C, 2h; w; 850, 4h; a; 750C, 24h; a | 1.23 x 10-7 | 60.39 |
1090C, 2h; w; 770, 4h; a | 6.37 x 10-7 | 57.01 |
a: air-cooled, w: quenched