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Effects of mushy zone tensile stresses on pore nucleation in superalloy 718

Book ·
OSTI ID:428087
; ;  [1]
  1. Auburn Univ., AL (United States)
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Inadequate feeding of shrinkage during solidification can impose large tensile stresses upon the mushy zone of a casting. These stresses can be relieved by (1) plastic deformation of the dendritic network and/or (2) nucleation of pores in the interdendritic liquid. Analogous to other nucleation processes, heterogeneous nucleation of micropores at non-wetting inclusions in the liquid is expected to be thermodynamically favored over either plastic deformation of the solid or homogeneous nucleation of micropores in the liquid. The stress-induced nucleation of pores in liquid metals is examined in the present paper using a thermodynamic model and compared with experimental mushy-zone tensile data of superalloy 718. The thermodynamic model predicts that a threshold stress should be exceeded before pores are nucleated at a substantial rate. Mushy zone tension tests were performed on superalloy 718 under constant strain rates of 0.0014/sec, 0.0026/sec, and 0.0046/sec. Increasing amounts of liquid in the mushy zone significantly reduced the total failure strain. Interrupted tests showed that the fracture of the experimental samples occurred by a pore nucleation, growth, and coalescence mechanism. The highest strain rates caused sample failure with very low levels of strain, presumably due to stress concentration effects from inhomogeneous deformation.
OSTI ID:
428087
Report Number(s):
CONF-960815--; ISBN 0-7918-1505-6
Country of Publication:
United States
Language:
English

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Related Subjects

36 MATERIALS SCIENCE
CASTINGS
EXPERIMENTAL DATA
INCONEL 718
LIQUID METALS
MATHEMATICAL MODELS
MICROSTRUCTURE
NUCLEATION
THEORETICAL DATA