Journal ArticleDOI
Theoretical examination of ultrasonic pole figures via comparison with the results analyzed by finite element polycrystal model.
Michiaki Kobayashi,Shihua Tang +1 more
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TLDR
The proposed theoretical modeling is applied to the texture characterization in polycrystalline aggregates of FCC metals under various plastic strain histories via ultrasonic pole figures, and also the frequency dependence is examined by using Granato-Lücke's dislocation strings model.Abstract:
The ultrasonic wave velocities in a polycrystalline aggregate are sensitively influenced by texture development due to plastic deformation. According to Sayer's model, it is possible to construct ultrasonic pole figures via the crystallite orientation distribution function (CODF), which can be calculated by using ultrasonic wave velocities. In the previous papers, the theoretical modeling to simulate ultrasonic wave velocities propagating in solid materials under plastic deformation has been proposed by the authors and proved to be a good agreement with experimental results. Generally, wave velocities are dependent upon the propagating wave frequency; hence to evaluate texture development via ultrasonic pole figures it is necessary to examine an influence of frequency dependence on the ultrasonic wave velocities. In the present paper, the proposed theoretical modeling is applied to the texture characterization in polycrystalline aggregates of FCC metals under various plastic strain histories via ultrasonic pole figures, and also the frequency dependence is examined by using Granato-Lucke's dislocation strings model. Then the simulated ultrasonic pole figures are compared with the pole figures analyzed by the finite element polycrystal model (FEPM). The good qualitative agreement between both results suggests the sufficient accuracy of our proposed theoretical modeling.read more
Citations
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Analysis of deformation localization based on proposed theory of ultrasonic wave velocity propagating in plastically deformed solids
TL;DR: In this article, the authors proposed an elasto-plastic coupling tensor to consider the elastic stiffness degradation due to the deformation of plastically deformed solids and derived diagrams of diffuse necking, localized necking and forming limit.
Journal ArticleDOI
Bifurcation analysis of fracture mode by simulated and experimental ductile fracture progress based on the proposed crack opening criterion
TL;DR: In this paper, an improved version of the proposed crack opening criterion was proposed and successively applied to the ductile materials such as A533B steel, Al2024-T4 and SiAlon.
Journal ArticleDOI
Analysis of post-buckling process and collapse of FCC single crystal plate under uniaxial compression based on proposed criterion of micro-crack nucleation deduced by shock wave theory
TL;DR: In this article, a new model for ductile fracture initiation is proposed based on a new concept, whereby a jump in the wave velocity along the intersection line between two different stationary discontinuity bands characterized by the vanishing velocity of an acceleration wave is verified theoretically by shock wave theory and analyzed numerically.
Journal ArticleDOI
Ductile to brittle fracture analysis based on improved application of proposed crack opening criterion deduced by micro-crack evolution equation
TL;DR: In this article, the improved application of the crack opening criterion to be able to apply ductile materials such as A533B steel, Al2024-T4 and SiAlon by considering the plastic/damage energy dissipation based on ASTM standard E1820-01 is proposed and the area at the crack-tip caused by the crack growth is estimated by the cracking opening criterion.
Journal ArticleDOI
Ultrasonic characterization of point defects induced by cross slip under pure shear
TL;DR: In this article, the longitudinal wave velocity is used to characterize the point defects in crystalline solids and the effect of crystal orientations on total amount of cross slips under pure shear was also investigated via the finite element method.
References
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Journal ArticleDOI
Theory of Mechanical Damping Due to Dislocations
A. Granato,K. Lücke +1 more
TL;DR: In this article, a quantitative theory of damping and modulus changes due to dislocations is developed, and it is found that the model used by Koehler of a pinned dislocation loop oscillating under the influence of an applied stress leads to two kinds of loss, one frequency dependent and the other not.
Journal ArticleDOI
The physics of plastic deformation
TL;DR: In this article, a simplified physical picture is extracted from the many complicated processes occuring during plastic deformation, based upon a set of continuously distributed straight edge dislocations, the carriers of plastic deformations, moving along their slip plane, interacting with each other and the lattice, multiplying and annihilating.
Journal ArticleDOI
Localized necking in thin sheets
Sigurd Støren,James R. Rice +1 more
TL;DR: Using a simplified constitutive model of a pointed vertex on subsequent yield loci, the onset of localized necking under biaxial stretching has been predicted and this result supports the hypothesis of vertex-formation on the yield locus under continued plastic flow.
Journal ArticleDOI
Description of Crystallite Orientation in Polycrystalline Materials. III. General Solution to Pole Figure Inversion
TL;DR: In this article, the orientation distribution of crystallites in anisotropic polycrystalline samples can be derived from a set of plane-normal distributions obtained by x-ray diffraction measurements.
Journal ArticleDOI
A class of phenomenological corner theories of plasticity
TL;DR: In this paper, a phenomenological flow theory of plasticity is proposed which models time-independent incremental behavior at a corner of the yield surface of a polycrystalline metal.