论文信息 - Quantitative characterization of the substructure of AISI 316 stainless steel resulting from creep

Quantitative characterization of the substructure of AISI 316 stainless steel resulting from creep

The substructure of AISI 316 stainless steel resulting from creep deformation has been quantitatively characterized using transmission electron microscopy. The specimens were tested at temperatures and stresses ranging from 593° to 816°C and 8000 to 35,000 psi, respectively. Subgrains whose boundaries are predominantly (111) twist boundaries were formed in all tests at and above 704°C but were observed very infrequently at 650°C and were completely absent after creep at 593°C. The subgrain diameter,d, and the mobile dislocation density, ρ, were found to vary with the applied stress, σa, according to:d =kσa-1 and ρα σa2. Subgrain misorientation varys from less than 0.1 to 1 deg in each specimen seemingly independent of all parameters evaluated. A double triple node dislocation configuration was frequently observed in all specimens. Its relation to the deformation process is discussed in a mechanism involving the breaking of attractive dislocation nodes.

J. Moteff | J. Moteff | K. Challenger | Kenneth D. Challenger | John Moteff

[1] Oleg D. Sherby,et al. Mechanical behavior of crystalline solids at elevated temperature , 1968 .

[2] L. Cuddy. Internal stresses and structures developed during creep , 1970 .

[3] D. Mclean. REVIEW ARTICLES: The physics of high temperature creep in metals , 1966 .

[4] S. K. Mitra,et al. Cold Work and Recovery in Creep at Ostensibly Constant Structure , 1967 .

[5] A. Howie,et al. Electron Microscopy of Thin Crystals , 1977, Nature.

[6] R. Lagneborg. Dislocation Density and Dislocation Arrangement during Creep of 20% Cr–35% Ni Stainless Steels , 1969 .

[7] D. Kuhlmann-wilsdorf,et al. Striations on Copper Single Crystals Subjected to Torsional Fatigue. II. On the Mechanism of Fatigue Striation Formation and Fatigue Failure at Low Strain Amplitudes , 1967 .

[8] D. B. Holt,et al. The plasticity of pure single crystals , 1964 .

[9] A. Ruff,et al. The temperature dependence of stacking fault energy in Fe-Cr-Ni alloys , 1971 .

[10] R. Schoone,et al. Automatic Unit for Thinning Transmission Electron Microscopy Specimens of Metals , 1966 .