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http://dx.doi.org/10.5781/KWJS.2013.31.3.31

Effects of Serrated Grain Boundary Structures on Boron Enrichment and Liquation Cracking Behavior in the Simulated Weld Heat-Affected Zone of a Ni-Based Superalloy  

Hong, Hyun-Uk (Department of Materials Science and Engineering, Changwon National University)
Choi, June-Woo (Department of Materials Science and Engineering, Changwon National University)
Bae, Sang-Hyun (Department of Materials Science and Engineering, Changwon National University)
Yoon, Joong-Geun (Department of Materials Science and Engineering, Changwon National University)
Kim, In-Soo (High Temperature Materials Research Group, Korea Institute of Materials Science)
Choi, Baig-Gyu (High Temperature Materials Research Group, Korea Institute of Materials Science)
Kim, Dong-Jin (Nuclear Materials Research Division, Korea Atomic Energy Research Institute)
Jo, Chang-Yong (High Temperature Materials Research Group, Korea Institute of Materials Science)
Publication Information
Journal of Welding and Joining / v.31, no.3, 2013 , pp. 31-38 More about this Journal
Abstract
The transition of serrated grain boundary and its effect on liquation behavior in the simulated weld heat-affected zone (HAZ) have been investigated in a wrought Ni-based superalloy Alloy 263. Recently, the present authors have found that grain boundary serration occurs in the absence of adjacent coarse ${\gamma}^{\prime}$ particles or $M_{23}C_6$ carbides when a specimen is direct-aged with a combination of slow cooling from solution treatment temperature to aging temperature. The present study was initiated to determine the interdependence of the serration and HAZ property with a consideration of this serration as a potential for the use of a hot-cracking resistant microstructure. A crystallographic study indicated that the serration led to a change in grain boundary character as special boundary with a lower interfacial energy as those terminated by low-index {111} boundary planes. It was found that the serrated grain boundaries are highly resistant to boron enrichment, and suppress effectively grain coarsening in HAZ. Furthermore, the serrated grain boundaries showed a higher resistance to susceptibility of liquation cracking. These results was discussed in terms of a significant decrease in interfacial energy of grain boundary by the serration.
Keywords
Ni-based superalloy; Grain boundary serration; Special boundary; Interfacial energy; Segregation; Liquation; Simulated HAZ;
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