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Experimental and Numerical Investigation of Bending in Hybrid Metal Additive Manufacturing Journal article
VALENTINO ANOK MELO CRISTINO, Rui FV Sampaio, João P.M. Pragana, Ivo M.F. Bragança, Carlos M.A. Silva, Paulo A.F. Martins. Experimental and Numerical Investigation of Bending in Hybrid Metal Additive Manufacturing[J]. Progress in Additive Manufacturing, 2024.
Authors:  VALENTINO ANOK MELO CRISTINO;  Rui FV Sampaio;  João P.M. Pragana;  Ivo M.F. Bragança;  Carlos M.A. Silva; et al.
Favorite |   IF:4.4/0 | Submit date:2024/08/16
Hybrid Additive Manufacturing  Laser Powder Bed Fusion  Bending  Formability  Experimentation  
A critical review of direct laser additive manufacturing ceramics Journal article
Dake Zhao, Guijun Bi, Jie Chen, WAI-MENG QUACH, Ran Feng, Antti Salminen, Fangyong Niu. A critical review of direct laser additive manufacturing ceramics[J]. International Journal of Minerals, Metallurgy and Materials, 2024.
Authors:  Dake Zhao;  Guijun Bi;  Jie Chen;  WAI-MENG QUACH;  Ran Feng; et al.
Favorite | TC[WOS]:0 TC[Scopus]:1  IF:5.6/4.3 | Submit date:2024/08/18
3d Printing  Laser Additive Manufacturing  Ceramics  Quality  Microstructure  Mechanical Properties  
Transient and steady models for blue laser directed energy deposition Journal article
Wei, Qianglong, Tang, Zijue, Wang, An, Guo, Liping, Yang, Huihui, Wu, Yi, Cristino, V. A.M., Kwok, C. T., Wang, Haowei, Wang, Hongze. Transient and steady models for blue laser directed energy deposition[J]. Journal of Materials Processing Technology, 2024, 325, 118292.
Authors:  Wei, Qianglong;  Tang, Zijue;  Wang, An;  Guo, Liping;  Yang, Huihui; et al.
Adobe PDF | Favorite | TC[WOS]:3 TC[Scopus]:3  IF:6.7/6.1 | Submit date:2024/05/02
Additive Manufacturing  Blue Laser  Directed Energy Deposition  Multi-physics Simulation  
Energy benchmark for evaluating the energy efficiency of selective laser melting processes Journal article
Luoke Hu, Yanan Wang, Lianjie Shu, Wei Cai, Jingxiang Lv, Kangkang Xu. Energy benchmark for evaluating the energy efficiency of selective laser melting processes[J]. APPLIED THERMAL ENGINEERING, 2022, 221, 119870.
Authors:  Luoke Hu;  Yanan Wang;  Lianjie Shu;  Wei Cai;  Jingxiang Lv; et al.
Favorite | TC[WOS]:6 TC[Scopus]:6  IF:6.1/5.8 | Submit date:2022/12/30
Energy Benchmark  Additive Manufacturing  Selective Laser Melting  Rating System  Energy Efficiency  
Experimental study on additive manufactured 304L stainless steel tubular sections: Material properties and cross-sectional behavior Journal article
Ran Feng, Jing-Pu Tang, Wai-Meng Quach, Ming Yan, Jing Zhao. Experimental study on additive manufactured 304L stainless steel tubular sections: Material properties and cross-sectional behavior[J]. ENGINEERING STRUCTURES, 2022, 273, 115093.
Authors:  Ran Feng;  Jing-Pu Tang;  Wai-Meng Quach;  Ming Yan;  Jing Zhao
Favorite | TC[WOS]:3 TC[Scopus]:4  IF:3.7/4.0 | Submit date:2023/01/30
Additive Manufacturing (Am)  Selective Laser Melting (Slm)  304l Stainless Steel  Stub Column  Tubular Section  
A comprehensive study of steel powders (316L, H13, P20 and 18Ni300) for their selective laser melting additive manufacturing Journal article
Yan J., Zhou Y., Gu R., Zhang X., Quach W.-M., Yan M.. A comprehensive study of steel powders (316L, H13, P20 and 18Ni300) for their selective laser melting additive manufacturing[J]. Metals, 2019, 9(1).
Authors:  Yan J.;  Zhou Y.;  Gu R.;  Zhang X.;  Quach W.-M.; et al.
Favorite | TC[WOS]:57 TC[Scopus]:62  IF:2.6/2.7 | Submit date:2019/02/14
Additive Manufacturing  Powder  Selective Laser Melting  Steel  Surface Structure