Mechanical Behavior Characterization of a Stainless Steel Dissimilar Metal Weld Interface :In-situMicro-Tensile Testing on Carburized Martensite and Austenite

Background Stainless Steel Dissimilar Metal Welds (SS DMW) between low-alloy steel 18MND5 and austenitic 316L stainless steel are critical junctions in the currently operating reactors because of their heterogeneous microstructure and mechanical properties. The presence of a narrow hard layer of carburized martensite and austenite in the ferritic-austenitic interface creates an important hardness gradient which affects the crack behavior of the SS DMW. Objective In order to evaluate the plastic properties of this hard layer, a micro tensile testing method was developed. Methods Tensile specimens of 15 x 80 x 6 mu m were extracted from the martensitic and carburized austenitic layers by focused ion beam (FIB) micro-processing and tested using anin-situtensile testing device. A platinum FIB deposition was used to measure local strain in the specimen during the test through digital image correlation (DIC). Isotropic elasto-plastic constitutive laws for the martensite and carburized austenite were obtained from the true strain-stress curves calculated from the micro-tensile tests. Results It was found that the corresponding plastic properties were in a good agreement with nanoindentation measurements and with values obtained from macroscopic tensile tests on crossweld specimens machined perpendicularly to the ferritic-austenitic interface and characterized using laser beam local diameter measurements. Conclusions In-situtensile testing is a promising technique for plastic behavior characterization of small scale materials and local hard layers in dissimilar metal welds.