MATERIAL VARIABILITY IN COMPOSITION AND STRUCTURE OF A TYPE-316 STAINLESS STEEL SUBMERGED ARC MELD METAL
Type 316 austenitic stainless steel submerged arc weld (SAW) deposited metal, produced by joining two heavy (50mm) thickness plates with a multipass procedure and using Type 316L filler metal, was characterised from both a compositional and structural point of view (optical and scanning electron microscopy observation, energy-dispersive X-ray elemental analysis and ferrite content and hardness measurements). Important features such as columnar grain macrostructure, mainly cellular-dendritic and a duplex (gamma-austenite matrix plus delta-ferrite second phase) microstructure were observed according to the occurrence of a ferritic austenitic weld-pool solidification mode followed by a solid-state transformation. The weld deposited metal was characterised along the thickness by significant variations in composition and ferrite morphology, distribution and content because of the influence of the filler metal chemistry and the thermal cycles experienced by each pass during subsequent passes.
Bibliographic Reference: ARTICLE: JOURNAL OF MATERIALS SCIENCE, VOL. 24 (1989), PP. 1429-1438
Record Number: 1989128004600 / Last updated on: 1990-04-01
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