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| Wavy interface enables extra strengthening in an additively manufactured high-entropy alloy with Mortise-Tenon architecture 期刊论文 INTERNATIONAL JOURNAL OF PLASTICITY, 2023, 卷号: 170, 页码: 18 Authors: Bai YJ(白云建); Li YD(李亚东); Wang YJ(王云江); Zhang K(张坤); Jiang QY(姜泉宇); Liu ZS(刘子尚); Hu, Zheng; Wei BC(魏炳忱) Adobe PDF(20723Kb)  |  Favorite  |  View/Download:119/13  |  Submit date:2023/12/18 High entropy alloy Laminated structure design Additive manufacturing Interface strengthening Local chemical variation |
| Prediction of the overall mechanical response of gradient nano-grained materials based on grain size distribution profile 期刊论文 INTERNATIONAL JOURNAL OF SOLIDS AND STRUCTURES, 2022, 卷号: 248, 页码: 9 Authors: Yu L(喻立) Adobe PDF(3427Kb)  |  Favorite  |  View/Download:207/45  |  Submit date:2022/07/18 Constitutive modeling Grain size distribution Strength Ductility Gradient structured metals |
| Designing structures with combined gradients of grain size and precipitation in high entropy alloys for simultaneous improvement of strength and ductility 期刊论文 ACTA MATERIALIA, 2022, 卷号: 230, 页码: 11 Authors: Tan S(覃双); Yang MX(杨沐鑫); Jiang P(姜萍); Wang J(王建); Wu XL(武晓雷); Zhou H; Yuan FP(袁福平) Adobe PDF(7610Kb)  |  Favorite  |  View/Download:247/81  |  Submit date:2022/07/18 High-entropy alloys Gradient structures Precipitates Strain hardening Strengthening Ductility |
| Enhanced tensile properties by heterogeneous grain structures and coherent precipitates in a CoCrNi-based medium entropy alloy 期刊论文 MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING, 2022, 卷号: 832, 页码: 11 Authors: Zhang ZH(张子晗); Jiang P(姜萍); Yuan FP(袁福平); Wu XL(武晓雷) Adobe PDF(18568Kb)  |  Favorite  |  View/Download:293/50  |  Submit date:2022/03/28 High entropy alloys Heterogeneous structures Precipitates Strain hardening Strengthening Ductility |
| Assessment of Regularized Ensemble Kalman Method for Inversion of Turbulence Quantity Fields 期刊论文 AIAA JOURNAL, 2022, 卷号: 60, 期号: 1, 页码: 3-13 Authors: Zhang XL(张鑫磊); Xiao, Heng; He GW(何国威) Adobe PDF(1913Kb)  |  Favorite  |  View/Download:261/66  |  Submit date:2022/01/24 |
| The Evolution of Micromechanical Properties for Zr-Based Metallic Glass Induced by Laser Shock Peening 期刊论文 FRONTIERS IN MATERIALS, 2021, 卷号: 8, 页码: 6 Authors: Li YS(李炎森); Wang, Zhitao; Wei YP(魏延鹏); Chen TY(陈天宇); Zhang, Chunfeng; Huan Y(郇勇); Zhang K(张坤); Wei BC(魏炳忱) Adobe PDF(2123Kb)  |  Favorite  |  View/Download:289/43  |  Submit date:2022/01/24 metallic glass laser shock peening nanoindentation serrations micromechanical properties |
| Repeatable mechanical energy absorption of ZnO nanopillars 期刊论文 MATERIALS TODAY COMMUNICATIONS, 2021, 卷号: 29, 页码: 8 Authors: Wang J(王军); Zhou M; Yang R(杨荣); Xiao P(肖攀); Ke FJ(柯孚久); Lu CS(卢春生) Adobe PDF(6444Kb)  |  Favorite  |  View/Download:215/61  |  Submit date:2022/01/12 ZnO nanopillars Repeatable energy absorption Phase transformation Inversion domain boundary Molecular dynamics |
| Coupled Strengthening Effects by Lattice Distortion, Local Chemical Ordering, and Nanoprecipitates in Medium-Entropy Alloys 期刊论文 FRONTIERS IN MATERIALS, 2021, 卷号: 8, 页码: 12 Authors: Cheng WQ(程文强); Yuan FP(袁福平); Wu XL(武晓雷) Adobe PDF(4230Kb)  |  Favorite  |  View/Download:232/48  |  Submit date:2022/01/13 high-entropy alloys lattice distortion local chemical ordering precipitation strengthening mechanisms molecular dynamics simulations |
| Elastic impact of sphere on large plate 期刊论文 JOURNAL OF THE MECHANICS AND PHYSICS OF SOLIDS, 2021, 卷号: 156, 页码: 22 Authors: Peng, Qing; Liu, Xiaoming; Wei, Yueguang Adobe PDF(5204Kb)  |  Favorite  |  View/Download:242/66  |  Submit date:2022/03/05 Elastic impact Homotopy analysis method Sphere on plate Coefficient of restitution |
| The Influence of Metastable Cellular Structure on Deformation Behavior in Laser Additively Manufactured 316L Stainless Steel 期刊论文 NANOMATERIALS, 2021, 卷号: 11, 期号: 11, 页码: 13 Authors: Li N(李娜); Li ZY(李正阳); Wei YJ(魏宇杰) Adobe PDF(6117Kb)  |  Favorite  |  View/Download:257/34  |  Submit date:2022/01/13 laser additive manufacturing metastable cellular structures 316L stainless steel coherent precipitates stacking fault energy |