·Paper Publications
- [31] 激光选区熔化Cu-15Ni-8Sn合金的显微组织、拉伸和摩擦磨损性能.[J].中国有色金属学报,2022,
- [32] Simultaneously enhanced strength and ductility of Cu-15Ni-8Sn alloy with periodic heterogeneous microstructures fabricated by laser powder bed fusion.[J].Additive Manufacturing,2022,
- [33] Electrophoretic deposition of novel semi-permeable coatings on 3D-printed Ti-Nb alloy meshes for guided alveolar bone regeneration.[J].Dental Materials,2021,(2):431-443
- [34] Understanding of adopting flat-top laser in laser powder bed fusion processed Inconel 718 alloy: simulation of single-track scanning and experiment.[J].Journal of Materials Research and Technology,2021,1388-1401
- [35] Dislocation-induced ultra-high strength in a novel steel fabricated using laser powder-bed-fusion.[J].Materials Science and Engineering: A,2021,142502
- [36] 在线稳恒磁场对激光选区熔化成形GH3536组织和性能各向异性的影响.[J].中国激光,2021,(8):
- [37] Dynamics of short fiber/polymer composite particles in paving process of additive manufacturing.Additive Manufacturing,2021,
- [38] Two-step heat treatment for laser powder bed fusion of a nickel-based superalloy with simultaneously enhanced tensile strength and ductility.Additive Manufacturing,2021,
- [39] 3D printing of a titanium-tantalum Gyroid scaffold with superb elastic admissible strain, bioactivity and in-situ bone regeneration capability.Additive Manufacturing,2021,(3):
- [40] Powder-spreading mechanisms in powder-bed-based additive manufacturing: Experiments and computational modeling.ACTA MATERIALIA,