Title of article
Failure in notched tension bars due to high-temperature creep: Interaction between nucleation controlled cavity growth and continuum cavity growth
Author/Authors
D.R. Hayhurst، نويسنده , , J. Lin، نويسنده , , R.J. Hayhurst، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2008
Pages
18
From page
2233
To page
2250
Abstract
For axi-symmetrically notched tension bars [Dyson, B.F., Loveday, M.S., 1981, Creep Fracture in Nimonic 80A under
Tri-axial Tensile Stressing, In: Ponter A.R.S., Hayhurst, D.R. (Eds.), Creep in Structures, Springer-Verlag, Berlin, pp.
406–421] show two types of damage propagation are shown: for low stress, failure propagates from the outside notch surface
to the centre-line; and for high stress, failure propagates from the centre-line to the outside notch surface. The objectives
of the paper are to: identify the physics of the processes controlling global failure modes; and, describe the global
behaviour using physics-based constitutive equations.
Two sets of constitutive equations are used to model the softening which takes place in tertiary creep of Nimonic 80A at
750 C. Softening by multiplication of mobile dislocations is firstly combined, for low stress, with softening due to nucleation
controlled creep constrained cavity growth; and secondly combined, for high stress, with softening due to continuum
void growth. The Continuum Damage Mechanics, CDM, Finite Element Solver DAMAGE XX has been used to study
notch creep fracture. Low stress notch behaviour is accurately predicted provided that the constitutive equations take
account of the effect of stress level on creep ductility. High stress notch behaviour is accurately predicted from a normalized
inverse cavity spacing d/2‘ = 6, and an initial normalized cavity radius rhi/‘ = 3.16 · 10 3, where 2‘ is the cavity spacing,
and d is the grain size; however, the constants in the strain rate equation required recalibration against high stress notch
data. A void nucleation mechanism is postulated for high stress behaviour which involves decohesion where slip bands
intersect second phase grain boundary particles. Both equation sets accurately predict experimentally observed global failure
modes.
Keywords
Nucleation controlled and continuum cavity growth , Notched bars , Creep Rupture
Journal title
International Journal of Solids and Structures
Serial Year
2008
Journal title
International Journal of Solids and Structures
Record number
449511
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