Sudhanshu S. Singh scite author profile

This paper presents a microstructure-guided modeling approach to predict the effective elastic response of heterogeneous materials, and demonstrates its application towards two highly heterogeneous, unconventional structural binders, i.e., iron carbonate and fly ash geopolymer. Microstructural information from synchrotron x-ray tomography (XRT) and intrinsic elastic properties of component solid phases from statistical nanoindentation are used as the primary inputs. The virtual periodic 3D microstructure reconstructed using XRT, along with periodic boundary conditions is used as a basis for strain-controlled numerical simulation scheme in the linear elastic range to predict the elastic modulus as well as the stresses in the microstructural phases. The elastic modulus of the composite material predicted from the microstructure-based constitutive modeling approach correlates very well with experimental measurements for both the materials considered. This technique efficiently links the microstructure to mechanical properties of interest and helps develop material design guidelines for novel heterogeneous composites.

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In situ X-ray synchrotron tomographic imaging during the compression of hyper-elastic polymeric materials

Patterson

Cordes

Henderson

et al. 2015

J Mater Sci

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3D microstructural characterization and mechanical properties of constituent particles in Al 7075 alloys using X-ray synchrotron tomography and nanoindentation

Singh

Schwartzstein

Williams

et al. 2014

Journal of Alloys and Compounds

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Mechanical characterization of microconstituents in a cast duplex stainless steel by micropillar compression

Guo

Singh

et al. 2014

Materials Science and Engineering: A

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