| General relationship between strength and hardness P Zhang, SX Li, ZF Zhang Materials Science and Engineering: A 529, 62-73, 2011 | 931 | 2011 |
| Low-cycle and extremely-low-cycle fatigue behaviors of high-Mn austenitic TRIP/TWIP alloys: Property evaluation, damage mechanisms and life prediction CW Shao, P Zhang, R Liu, ZJ Zhang, JC Pang, ZF Zhang Acta Materialia 103, 781-795, 2016 | 146 | 2016 |
| Fatigue cracking at twin boundaries: effects of crystallographic orientation and stacking fault energy ZJ Zhang, P Zhang, LL Li, ZF Zhang Acta Materialia 60 (6-7), 3113-3127, 2012 | 140 | 2012 |
| Simultaneous improvement of strength and plasticity: Additional work-hardening from gradient microstructure CW Shao, P Zhang, YK Zhu, ZJ Zhang, YZ Tian, ZF Zhang Acta Materialia 145, 413-428, 2018 | 133 | 2018 |
| Extremely-low-cycle fatigue behaviors of Cu and Cu–Al alloys: Damage mechanisms and life prediction R Liu, ZJ Zhang, P Zhang, ZF Zhang Acta Materialia 83, 341-356, 2015 | 114 | 2015 |
| Improvement of low-cycle fatigue resistance in TWIP steel by regulating the grain size and distribution CW Shao, P Zhang, YK Zhu, ZJ Zhang, JC Pang, ZF Zhang Acta Materialia 134, 128-142, 2017 | 103 | 2017 |
| High strength and utilizable ductility of bulk ultrafine-grained Cu–Al alloys XH An, WZ Han, CX Huang, P Zhang, G Yang, SD Wu, ZF Zhang Applied Physics Letters 92 (20), 201915, 2008 | 102 | 2008 |
| Revealing the deformation mechanisms of Cu–Al alloys with high strength and good ductility YZ Tian, LJ Zhao, N Park, R Liu, P Zhang, ZJ Zhang, A Shibata, ZF Zhang, ... Acta Materialia 110, 61-72, 2016 | 97 | 2016 |
| Notch Effect of Materials: Strengthening or Weakening? R Qu, P Zhang, Z Zhang Journal of Materials Science & Technology 30 (6), 599-608, 2014 | 90 | 2014 |
| Microstructures, strengthening mechanisms and fracture behavior of Cu–Ag alloys processed by high-pressure torsion YZ Tian, JJ Li, P Zhang, SD Wu, ZF Zhang, M Kawasaki, TG Langdon Acta Materialia 60 (1), 269-281, 2012 | 87 | 2012 |
| Twin boundaries: Strong or weak? S Qu, P Zhang, SD Wu, QS Zang, ZF Zhang Scripta Materialia 59 (10), 1131-1134, 2008 | 87 | 2008 |
| Controllable fatigue cracking mechanisms of copper bicrystals with a coherent twin boundary LL Li, ZJ Zhang, P Zhang, ZG Wang, ZF Zhang Nature communications 5, 3536, 2014 | 83 | 2014 |
| A remarkable improvement of low-cycle fatigue resistance of high-Mn austenitic TWIP alloys with similar tensile properties: Importance of slip mode CW Shao, P Zhang, R Liu, ZJ Zhang, JC Pang, QQ Duan, ZF Zhang Acta Materialia 118, 196-212, 2016 | 80 | 2016 |
| Optimizing strength and ductility of Cu–Zn alloys through severe plastic deformation P Zhang, XH An, ZJ Zhang, SD Wu, SX Li, ZF Zhang, RB Figueiredo, ... Scripta Materialia 67 (11), 871-874, 2012 | 80 | 2012 |
| Twin boundary: Stronger or weaker interface to resist fatigue cracking? P Zhang, ZJ Zhang, LL Li, ZF Zhang Scripta Materialia 66 (11), 854-859, 2012 | 77 | 2012 |
| Improved fatigue properties of ultrafine-grained copper under cyclic torsion loading RH Li, ZJ Zhang, P Zhang, ZF Zhang Acta Materialia 61 (15), 5857-5868, 2013 | 62 | 2013 |
| Effects of dislocation slip mode on high-cycle fatigue behaviors of ultrafine-grained Cu–Zn alloy processed by equal-channel angular pressing ZJ Zhang, XH An, P Zhang, MX Yang, G Yang, SD Wu, ZF Zhang Scripta Materialia 68 (6), 389-392, 2013 | 60 | 2013 |
| Exploring the fatigue strength improvement of Cu-Al alloys R Liu, YZ Tian, ZJ Zhang, P Zhang, XH An, ZF Zhang Acta Materialia 144, 613-626, 2018 | 58 | 2018 |
| Competition between slip and twinning in face-centered cubic metals T Cai, ZJ Zhang, P Zhang, JB Yang, ZF Zhang Journal of Applied Physics 116 (16), 163512, 2014 | 58 | 2014 |
| Simultaneous improvement in strength and plasticity of Ti-24Nb-4Zr-8Sn manufactured by selective laser melting CL Yang, ZJ Zhang, SJ Li, YJ Liu, TB Sercombe, WT Hou, P Zhang, ... Materials & Design 157, 52-59, 2018 | 54 | 2018 |
zhenjun zhanginstitute of metal research, CAS在 imr.ac.cn 的电子邮件经过验证
