Computational evaluation of micro- To macroscopic non-uniform deformation behavior of polycrystalline materials using second-order homogenization method

[21] Uchida M., Kaneko Y., Experimental modeling of nonuniform deformation in finite volume evaluation region of heterogeneous material, Heliyon, 4, (2018)

[22] Pan J., Rice J. R., Rate sensitivity of plastic flow and implications for yield-surface vertices, International Journal of Solids and Structures, 19, 11, pp. 973-987, (1983)

[23] Uchida M., Ueno T., Abe T., Kaneko Y., Quantitative evaluation of the development of stress and strain fields using digital image correlation and finite element methods, Advanced Experimental Mechanics, 2, pp. 76-81, (2017)

[24] Taniguchi A., Maeyama T., Uchida M., Kaneko Y., Macroscopic and microscopic non-uniform deformations of polycrystalline pure copper during uniaxial tensile test with high stress gradient, Key Engineering Materials, 794, pp. 246-252, (2019)

[21] Uchida M., Kaneko Y., Experimental modeling of nonuniform deformation in finite volume evaluation region of heterogeneous material, Heliyon, 4, (2018)

[22] Pan J., Rice J. R., Rate sensitivity of plastic flow and implications for yield-surface vertices, International Journal of Solids and Structures, 19, 11, pp. 973-987, (1983)

[23] Uchida M., Ueno T., Abe T., Kaneko Y., Quantitative evaluation of the development of stress and strain fields using digital image correlation and finite element methods, Advanced Experimental Mechanics, 2, pp. 76-81, (2017)

[24] Taniguchi A., Maeyama T., Uchida M., Kaneko Y., Macroscopic and microscopic non-uniform deformations of polycrystalline pure copper during uniaxial tensile test with high stress gradient, Key Engineering Materials, 794, pp. 246-252, (2019)