On elastic moduli and elastic anisotropy in polycrystalline martensitic NiTi
A combined experimental and computational effort was undertaken to provide insight into the elastic response of B19′ martensitic NiTi variants as they exist in bulk, polycrystalline aggregate form during monotonic tensile and compressive loading. The experimental effort centered on using in situ neu...
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Published in | Acta materialia Vol. 59; no. 13; pp. 5055 - 5066 |
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Abstract | A combined experimental and computational effort was undertaken to provide insight into the elastic response of B19′ martensitic NiTi variants as they exist in bulk, polycrystalline aggregate form during monotonic tensile and compressive loading. The experimental effort centered on using
in situ neutron diffraction during loading to measure elastic moduli in several directions along with an average Young’s modulus and a Poisson’s ratio. The measurements were compared with predictions from a 30,000 variant, self-consistent polycrystalline deformation model that accounted for the elastic intergranular constraint, and also with predictions of single crystal behavior from previously published
ab initio studies. Variant conversion and detwinning processes that influenced the intergranular constraint occurred even at stresses where the macroscopic stress–strain response appeared linear. Direct evidence of these processes was revealed in changes in texture, which were captured in inverse pole figures constructed from the neutron diffraction measurements. |
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AbstractList | A combined experimental and computational effort was undertaken to provide insight into the elastic response of B19' martensitic NiTi variants as they exist in bulk, polycrystalline aggregate form during monotonic tensile and compressive loading. The experimental effort centered on using in situ neutron diffraction during loading to measure elastic moduli in several directions along with an average Young's modulus and a Poisson's ratio. The measurements were compared with predictions from a 30,000 variant, self-consistent polycrystalline deformation model that accounted for the elastic intergranular constraint, and also with predictions of single crystal behavior from previously published ab initio studies. Variant conversion and detwinning processes that influenced the intergranular constraint occurred even at stresses where the macroscopic stress-strain response appeared linear. Direct evidence of these processes was revealed in changes in texture, which were captured in inverse pole figures constructed from the neutron diffraction measurements. A combined experimental and computational effort was undertaken to provide insight into the elastic response of B19′ martensitic NiTi variants as they exist in bulk, polycrystalline aggregate form during monotonic tensile and compressive loading. The experimental effort centered on using in situ neutron diffraction during loading to measure elastic moduli in several directions along with an average Young’s modulus and a Poisson’s ratio. The measurements were compared with predictions from a 30,000 variant, self-consistent polycrystalline deformation model that accounted for the elastic intergranular constraint, and also with predictions of single crystal behavior from previously published ab initio studies. Variant conversion and detwinning processes that influenced the intergranular constraint occurred even at stresses where the macroscopic stress–strain response appeared linear. Direct evidence of these processes was revealed in changes in texture, which were captured in inverse pole figures constructed from the neutron diffraction measurements. |
Author | Clausen, B. Noebe, R.D. Vaidyanathan, R. Qiu, S. Padula, S.A. |
Author_xml | – sequence: 1 givenname: S. surname: Qiu fullname: Qiu, S. organization: Advanced Materials Processing and Analysis Center (AMPAC), Mechanical, Materials and Aerospace Engineering Department, University of Central Florida, Orlando, FL 32816, USA – sequence: 2 givenname: B. surname: Clausen fullname: Clausen, B. organization: Los Alamos National Laboratory, Los Alamos, NM 87545, USA – sequence: 3 givenname: S.A. surname: Padula fullname: Padula, S.A. organization: NASA Glenn Research Center, Cleveland, OH 44135, USA – sequence: 4 givenname: R.D. surname: Noebe fullname: Noebe, R.D. organization: NASA Glenn Research Center, Cleveland, OH 44135, USA – sequence: 5 givenname: R. surname: Vaidyanathan fullname: Vaidyanathan, R. email: raj@mail.ucf.edu organization: Advanced Materials Processing and Analysis Center (AMPAC), Mechanical, Materials and Aerospace Engineering Department, University of Central Florida, Orlando, FL 32816, USA |
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Snippet | A combined experimental and computational effort was undertaken to provide insight into the elastic response of B19′ martensitic NiTi variants as they exist in... A combined experimental and computational effort was undertaken to provide insight into the elastic response of B19' martensitic NiTi variants as they exist in... |
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StartPage | 5055 |
SubjectTerms | Anisotropy Applied sciences Elastic modulus Exact sciences and technology Intermetallics Martensite Metals. Metallurgy Modulus of elasticity Neutron diffraction Nickel base alloys Nickel titanides Shape memory Shape memory alloys Texture Titanium compounds |
Title | On elastic moduli and elastic anisotropy in polycrystalline martensitic NiTi |
URI | https://dx.doi.org/10.1016/j.actamat.2011.04.018 https://search.proquest.com/docview/907944372 |
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