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Role of dendrite branching and growth kinetics in the formation of low angle boundaries in Ni–base superalloys

✍ Scribed by M. Newell; K. Devendra; P.A. Jennings; N. D'Souza

Publisher
Elsevier Science
Year
2005
Tongue
English
Weight
517 KB
Volume
412
Category
Article
ISSN
0921-5093

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✦ Synopsis

An experimental study coupled with a local thermal undercooling model has been used to discriminate between possible contributions to the evolution of misorientation producing low angle grain boundaries during solidification in the Ni-base superalloys, CMSX4 and CMSX10N; these include: (a) successive dendrite branching, (b) dendrite bending during steady state growth and (c) thermal-undercooling driven transient dendrite growth kinetics. While extensive dendrite branching/steady state growth led to an average spread of misorientation ≈2.3 • and was random in nature, enhanced growth kinetics accompanying non-steady state conditions produced an accumulated misorientation up to 6 • ; the latter was suggested to potentially include plastic deformation of the dendrite stems within the mushy zone.

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Formation of low angle boundaries in Ni-based superalloys
✍ N. D'Souza; M. Newell; K. Devendra; P.A. Jennings; M.G. Ardakani; B.A. Shollock 📂 Article 📅 2005 🏛 Elsevier Science 🌐 English ⚖ 242 KB

The evolution of misorientation accompanying branching and growth of dendrite stems advancing into an increasingly undercooled liquid at a geometrical discontinuity in cross section (platform of a turbine blade) during solidification of a Ni-base superalloy has been experimentally investigated. The