[1] Z. You, S. Qu, S. Luo, L. Lu, Fracture toughness evaluation of nanostructured metals via a contactless crack opening displacement gauge, Materialia 7 (2019) 100430.
[2] H. Yang, S. Tian, T. Gao, J. Nie, Z. You, G. Liu, H. Wang, X. Liu, High-temperature mechanical properties of 2024 Al matrix nanocomposite reinforced by TiC network architecture, Materials Science and Engineering: A 763 (2019) 138121.
[3] L. Xiong, Z.S. You, S.D. Qu, L. Lu, Fracture behavior of heterogeneous nanostructured 316L austenitic stainless steel with nanotwin bundles, Acta Materialia 150 (2018) 130-138.
[4] H. Wang, Z. You, L. Lu, Kinematic and isotropic strain hardening in copper with highly aligned nanoscale twins, Materials Research Letters 6 (2018) 333-338.
[5] Z. You, L. Lu, Deformation and fracture mechanisms of nanotwinned metals, National Science Review 4 (2017) 519-520.
[6] L. Xiong, Z.S. You, L. Lu, Fracture behavior of an austenitic stainless steel with nanoscale deformation twins, Scripta Materialia 127 (2017) 173-177.
[7] S.S. Luo, Z.S. You, L. Lu, Intrinsic fracture toughness of bulk nanostructured Cu with nanoscale deformation twins, Scripta Materialia 133 (2017) 1-4.
[8] S. Luo, Z. You, L. Lu, Thickness effect on fracture behavior of columnar-grained Cu with preferentially oriented nanoscale twins, Journal of Materials Research 32 (2017) 4554-4562.
[9] Q. Lu, Z. You, X. Huang, N. Hansen, L. Lu, Dependence of dislocation structure on orientation and slip systems in highly oriented nanotwinned Cu, Acta Materialia 127 (2017) 85-97.
[10] W. Chen, Z.S. You, N.R. Tao, Z.H. Jin, L. Lu, Mechanically-induced grain coarsening in gradient nano-grained copper, Acta Materialia 125 (2017) 255-264.
[11] L. Xiong, Z.S. You, L. Lu, Enhancing fracture toughness of nanotwinned austenitic steel by thermal annealing, Scripta Materialia 119 (2016) 55-59.
[12] Y. Jiang, R. Zhu, J.T. Wang, Z.S. You, An investigation on rolling texture transition in copper preprocessed by equal channel angular pressing, Journal of Materials Science 51 (2016) 5609-5624.
[13] Z. You, L. Lu, Effect of Strain Rate on Tensile Ductility and Fracture Behavior of Bulk Nanotwinned Copper, Advanced Engineering Materials 17 (2015) 1754-1759.
[14] W. Chen, Z.S. You, N.R. Tao, L. Lu, Microstructural evolutions and stability of gradient nano-grained copper under tensile tests and subsequent storage, IOP Conference Series: Materials Science and Engineering 89 (2015) 012001.
[15] L. Lu, Z.S. You, Plastic Deformation Mechanisms in Nanotwinned Metals, Acta Metallurgica Sinica 50 (2014) 129-136.
[16] Z. You, X. Li, L. Gui, Q. Lu, T. Zhu, H. Gao, L. Lu, Plastic anisotropy and associated deformation mechanisms in nanotwinned metals, Acta Materialia 61 (2013) 217-227.
[17] L. Lu, Z.S. You, K. Lu, Work hardening of polycrystalline Cu with nanoscale twins, Scripta Materialia 66 (2012) 837-842.
[18] Z.S. You, L. Lu, K. Lu, Tensile behavior of columnar grained Cu with preferentially oriented nanoscale twins, Acta Materialia 59 (2011) 6927-6937.
[19] Z.S. You, L. Lu, K. Lu, Temperature effect on rolling behavior of nano-twinned copper, Scripta Materialia 62 (2010) 415-418.