Characterization and modeling of heterogeneous deformation in commercial purity titanium

Yang, Y; Wang, Leyun; Zambaldi, Dr C; Eisenlohr, P; Barabash, Rozaliya; Liu, W.; Stoudt, Dr M R; Crimp, Prof M A; Bieler, Prof T R

doi:10.1007/s11837-011-0161-8

Title: Characterization and modeling of heterogeneous deformation in commercial purity titanium

Journal Article · Sat Jan 01 00:00:00 EST 2011 · Journal of Metals

DOI:https://doi.org/10.1007/s11837-011-0161-8· OSTI ID:1023323

Yang, Y ^[1]; Wang, Leyun ^[1]; Zambaldi, Dr C ^[2]; Eisenlohr, P ^[2]; Barabash, Rozaliya ^[3]; Liu, W. ^[4]; Stoudt, Dr M R ^[5]; Crimp, Prof M A ^[1]; Bieler, Prof T R ^[1]

Michigan State University, East Lansing
Max-Planck-Institut fur Eisenforschung, Germany
ORNL
Argonne National Laboratory (ANL)
National Institute of Standards and Technology (NIST), Gaithersburg, MD

Heterogeneous deformation, including local dislocation shear activity and lattice rotation, was analyzed in microstructure patches of polycrystalline commercial purity titanium specimens using three different experimental methods. The measurements were compared with crystal plasticity finite element (CPFE) simulations for the same region that incorporate a local phenomenological hardening constitutive model. The dislocation activity was measured using techniques associated with atomic force microscopy (AFM), confocal microscopy, three-dimensional-X-ray diffraction (3D-XRD), and nano-indentation. These measurements allow assessment and guidance for strategic improvement of the accuracy of CPFE model development. The CPFE model successfully predicted most types of active dislocation systems within grains at the correct magnitudes, but the simulation of spatial distribution of strain was not always similar to experimental observations. To obtain an accurate CPFE model, the critical resolved shear stresses for major deformation systems in -titanium were assessed using an optimization strategy with CPFE predictions of the measured pile-up topography surrounding axisymmetric nano-indentation. Only modest improvements were noted over the simulations done without such optimized parameters. This indicates that a major challenge for model development is to effectively predict conditions where slip transfer occurs, and where geometrically necessary dislocations (GND) accumulate.

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Research Organization:: Oak Ridge National Lab. (ORNL), Oak Ridge, TN (United States)

Sponsoring Organization:: USDOE Office of Science (SC)

DOE Contract Number:: DE-AC05-00OR22725

OSTI ID:: 1023323

Journal Information:: Journal of Metals, Vol. 63, Issue 9; ISSN 0148-6608

Country of Publication:: United States

Language:: English

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Related Subjects

36 MATERIALS SCIENCE
ACCURACY
ATOMIC FORCE MICROSCOPY
DEFORMATION
DIFFRACTION
DISLOCATIONS
HARDENING
MICROSCOPY
MICROSTRUCTURE
OPTIMIZATION
PLASTICITY
ROTATION
SHEAR
SIMULATION
SLIP
SPATIAL DISTRIBUTION
STRAINS
STRESSES
TITANIUM
TOPOGRAPHY

Title: Characterization and modeling of heterogeneous deformation in commercial purity titanium

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