1.纳米结构金属材料

2.微观结构设计及制备

3.金属材料结构-性能关系

4.塑性变形机制

5.疲劳与断裂

1. Q.S. Pan, M.X. Yang, R. Feng, A.C. Chuang, K. An, P.K. Liaw, X.L. Wu, N.R. Tao,  L. Lu*. Atomic faulting induced exceptional cryogenic strain hardening in gradient-cell-structured alloy. Science, 382 (2023)185–190.

2. Q.S. Pan, L.X. Zhang, R. Feng, Q.H. Lu, K. An, A.C. Chuang, J.D. Poplawsky, P.K. Liaw, L. Lu*.

Gradient cell–structured high-entropy alloy with exceptional strength and ductility. Science, 374 (2021) 984–989. 现Web of Science高被引论文

3. Q.S. Pan, H.F. Zhou, Q.H. Lu, H.J. Gao, L. Lu*. History-independent cyclic response of nanotwinned metals. Nature, 551 (2017) 214-217. 

4. L. Liu, Y. Liu, L.Y. Liu, Q.S. Pan*, L. Lu*. Microstructure evolution in multi-principal element alloy with millimeter-sized grains subjected to cyclic torsion. Acta Materialia, 287（2025）120766.

5. L.X. Zhang, L. Liu, S. Guo, Q.S. Pan*, L. Lu*. Microstructure and evolution of gradient dislocation cells in multi-principal element alloy subjected to cyclic torsion. Acta Materialia, 275(2024)120059.

6. Q.S. Pan, L.J. Jing, L. Lu*. Enhanced fatigue endurance limit of Cu through low-angle dislocation boundary. Acta Materialia, 244 (2023) 118542.                                   

7. Q.S. Pan, J.Z. Long, L.J. Jing, N.R. Tao, L. Lu*. Cyclic strain amplitude-dependent fatigue mechanism of gradient nanograined Cu. Acta Materialia, 196 (2020) 252–260.

8. Q.S. Pan, L. Lu*. Improved fatigue resistance of gradient nanograined metallic materials: Suppress strain localization and damage accumulation. Scripta Materialia, 187 (2020) 301–306.

9. J.Z. Long, Q.S. Pan, N.R. Tao, M. Dao, S. Suresh, L. Lu*. Improved fatigue resistance of gradient nanograined Cu. Acta Materialia, 166 (2019) 56-66.

10. Q.S. Pan, H.F. Zhou, Q.H. Lu, H.J. Gao, L. Lu*. Asymmetric cyclic response of tensile pre-deformed Cu with highly oriented nanoscale twins. Acta Materialia, 175 (2019) 477-486.

11. Q.S. Pan, L. Lu*. Strain-controlled cyclic stability and properties of Cu with highly oriented nanoscale twins. Acta Materialia, 81 (2014) 248–257.

12. Q.S. Pan, Q.H. Lu, L. Lu*. Fatigue behavior of columnar-grained Cu with preferentially oriented nanoscale twins. Acta Materialia, 61 (2013) 1383-1393.