Indian Welding Journal

Open Access Open Access  Restricted Access Subscription Access
Open Access Open Access Open Access  Restricted Access Restricted Access Subscription Access

Ferrite Content and Morphology of Type 308 Stainless Steel Weld Metal


Affiliations
1 Office of Inspection and Enforcement, U.S. Nuclear Regulatory Commission, Washington, D.C., United States
2 Atomic Energy Establishment, Cairo, Egypt
     

   Subscribe/Renew Journal


The variations of both ferrite number (FN) and morphology of Type AISI 308 deposited weld metal were studied. The predicted means of population of FN values at the top, transverse and longitudinal sections were estimated as 7, 5 and 5, respectively. The variation in FN values was attributed to various reasons such as the orientation of ferrite phase from section to section, weld metal solidification rate, cooling rate, and the dissolution of the ferrite phase due to subsequent thermal cycles in a multipass weld metal.

The morphology of the ferrite phase was investigated metallographically and found to vary from bead to bead. Three different morphologies were distinguished, namely vermicular, lacy and globular.


User
Subscription Login to verify subscription
Notifications
Font Size

Abstract Views: 254

PDF Views: 4




  • Ferrite Content and Morphology of Type 308 Stainless Steel Weld Metal

Abstract Views: 254  |  PDF Views: 4

Authors

H. I. Shaaban
Office of Inspection and Enforcement, U.S. Nuclear Regulatory Commission, Washington, D.C., United States
M. A. Shafey
Atomic Energy Establishment, Cairo, Egypt
F. H. Hammad
Atomic Energy Establishment, Cairo, Egypt

Abstract


The variations of both ferrite number (FN) and morphology of Type AISI 308 deposited weld metal were studied. The predicted means of population of FN values at the top, transverse and longitudinal sections were estimated as 7, 5 and 5, respectively. The variation in FN values was attributed to various reasons such as the orientation of ferrite phase from section to section, weld metal solidification rate, cooling rate, and the dissolution of the ferrite phase due to subsequent thermal cycles in a multipass weld metal.

The morphology of the ferrite phase was investigated metallographically and found to vary from bead to bead. Three different morphologies were distinguished, namely vermicular, lacy and globular.