Superior strength-ductility combination resulted from hetero-zone boundary affected region in Cu-Fe layered material
H Ran, P Ye, F Guo, M Wang, W Su, X Chen… - Journal of Materials …, 2024 - Elsevier
The hetero-zone boundary affected region (HBAR) significantly influences the mechanical
behaviors of layered materials, where the deformation mechanisms differ from those in the …
behaviors of layered materials, where the deformation mechanisms differ from those in the …
[HTML][HTML] Effect of stress/strain partition on the mechanical behavior of heterostructured laminates: a strain gradient plasticity modeling
Based on the structure of natural nacres, laminated metal materials have been successfully
developed to possess desirable mechanical properties for diverse engineering applications …
developed to possess desirable mechanical properties for diverse engineering applications …
Progress of cross-scale mechanics in additive manufacturing technology for aeronautical application.
YU Zhijie, XU Bihan, W Xiangying… - Journal of …, 2023 - search.ebscohost.com
The application of metal additive manufacturing technology and products in the aviation field
requires optimized structural design at macroscale and precise manufacture control at …
requires optimized structural design at macroscale and precise manufacture control at …
[HTML][HTML] Synergistic deformation mechanisms in Cu–Fe layered materials: A strain gradient plasticity finite element analysis
H Ran, W Su, P Ye, X Chen, C Zhang, Q Cheng… - Journal of Materials …, 2024 - Elsevier
The hetero-zone boundary affected region (HBAR), with a high strain gradient, plays a
crucial role in the synergistic deformation of layered materials. Our previous experimental …
crucial role in the synergistic deformation of layered materials. Our previous experimental …