【1】
Effect of work hardening discrepancy on strengthening of laminated Cu/CuZn alloys.
Z Cao, Z Cheng, W Xu, L Lu
Journal of Materials Science & Technology 103, 67-72  2022   Full Text

【2】
Superior Strength and Ductility of 304 Austenitic Stainless Steel with Gradient Dislocations.
Q Pan, S Guo, F Cui, L Jing, L Lu
Nanomaterials 11 (10), 2613  2021   Full Text

【3】
Gradient-cell–structured high-entropy alloy with exceptional strength and ductility.
Q Pan, L Zhang, R Feng, Q Lu, K An, AC Chuang, JD Poplawsky, PK Liaw, L Lu
Science, eabj8114 4  2021   Full Text

【4】
Work hardening discrepancy designing to strengthening gradient nanotwinned Cu.
T Wan, Z Cheng, L Bu, L Lu
Scripta Materialia 201, 113975 5  2021   Full Text

【5】
Anisotropic strengthening of nanotwin bundles in heterogeneous nanostructured Cu: Effect of deformation compatibility.
HZ Zhao, ZS You, NR Tao, L Lu
Acta Materialia 210, 116830 2  2021   Full Text

【6】
Fatigue and fracture of nanostructured metals and alloys.
L Lu, Q Pan, K Hattar, BL Boyce
MRS Bulletin 46 (3), 258-264 4  2021   Full Text

【7】
Enhanced high-cycle fatigue resistance of 304 austenitic stainless steel with nanotwinned grains.
F Cui, QS Pan, NR Tao, L Lu
International Journal of Fatigue 143, 105994 4  2021   Full Text

【8】
Size effect of deformation nanotwin bundles on their strengthening and toughening in heterogeneous nanostructured Cu.
Z You, S Luo, L Lu
Science China Technological Sciences 64 (1), 23-31 1  2021   Full Text