Title of article
Dislocation substructure in 316L stainless steel under thermal fatigue up to 650 K
Author/Authors
Robertson، نويسنده , , C and Fivel، نويسنده , , M.C and Fissolo، نويسنده , , A، نويسنده ,
Pages
11
From page
47
To page
57
Abstract
In an attempt to investigate damage accumulation mechanisms in thermal fatigue, dislocation substructures forming in 316L steel during one specific test were examined and simulated. Hence, thin foils taken out of massive, tested specimens were first observed in transmission electron microscopy (TEM). These observations helped in determining one initial dislocation configuration to be implemented in a numerical model, combining 3D discrete dislocation dynamics simulation (DDD) and finite element method computations (FEM). It was found that the simulated mechanical behaviour of the DDD microstructure is compatible with FEM and experimental data. The numerically generated dislocation microstructure is similar to ladder-like dislocation arrangements as found in many fatigued f.c.c. materials. Distinct mechanical behaviour for the two active slip systems was shown and deformation mechanisms were proposed. Up to T=650 K, no evidence for direct effect of temperature on climb and cross slip phenomena was found.
Keywords
Thermal fatigue , 316L steel , FEM , TEM , Discrete dislocation dynamics
Journal title
Astroparticle Physics
Record number
2059185
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