Publication List
Journal Articles:
[10] Zhou, Y., Grandhi, M., Liu Z., Ning, F., 2024. Wire-Influenced Particle Dynamics and Fluid Flow Behaviors of Melt Pool in Coaxial Wire-Powder Fed Directed Energy Deposition of Metal Matrix Composites, Composites Part B: Engineering, Under review.
[9] Zhou, Y., Jiang, D., and Ning, F., 2024. Understanding the Formation of Laser-Induced Melt Pools with both Wire and Powder Feeding in Directed Energy Deposition, Additive Manufacturing, Under review.
[8] Zhou, Y., and Ning, F., 2023. Directed Energy Deposition with Coaxial Wire-Powder Feeding: Melt Pool Temperature and Microstructure. Journal of Manufacturing Science and Engineering, 145(8), pp.1-13.
[7] Zhou, Y., Zhang, P. and Ning, F., 2023. Joining of carbon fiber reinforced polymer/titanium stacks using directed energy deposition additive manufacturing. Composite Structures, 610, p.116775.
[6] Zhou, Y. and Ning, F., 2022. Joining CFRP/Ti Stacks by Directed Energy Deposition: Surface Topography Effects on Interface Formation and Bonding. Composites Part B: Engineering, p.110365.
[5] Zhou, Y., Abbara, E.M., Jiang, D., Arad A., Poliks, M.D., Ning, F., 2022. High-cycle fatigue properties of curved-surface AlSi10Mg parts fabricated by powder bed fusion additive manufacturing. Rapid Prototyping Journal, 28(7), pp. 1346-1360.
[4] Zhou, Y., Ning, F., Zhang, P. and Sharma, A., 2021. Geometrical, microstructural, and mechanical properties of curved-surface AlSi10Mg parts fabricated by powder bed fusion additive manufacturing. Materials & Design, 198, p.109360.
[3] Zhou, Y. and Ning, F., 2020. Build orientation effect on the geometric performance of curved-surface 316L stainless steel parts fabricated by selective laser melting. Journal of Manufacturing Science and Engineering, 142(12), p.121002.
[2] Zhou, Y., Chen, S., Chen, X., Liang, J., Liu, C. and Wang, M., 2020. The effect of laser scanning speed on microstructural evolution during direct laser deposition 12CrNi2 alloy steel. Optics & Laser Technology, 125, p.106041.
[1] Zhou, Y., Chen, S., Chen, X., Cui, T., Liang, J., and Liu, C., 2019. The evolution of bainite and mechanical properties of direct laser deposition 12CrNi2 alloy steel at different laser power. Materials Science and Engineering: A, 742, pp.150-161.
Peer-reviewed Conference Proceedings:
[9] Zhang, W., Zhao, Yi., Zhou, Y.*, 2024. Effects of SiC Reinforced Particles on Melt Pool Dynamics and Porosity Formation in Directed Energy Deposition of SS 316L Metal Matrix Composites. 2024 Annual International Solid Freeform Fabrication Symposium, Submitted.
[8] Zhang, W., Ning, F., Zhou, Y.*, 2024. Directed Energy Deposition of Ti6Al4V Wire with Continuous Layer Varied Laser Power. Manufacturing Letters, Accepted.
[7] Chen, Y., Zhou, Y., Abbara, E.M., Alhendi, M., Poliks, M.D., Ning, F., Zhou, Y.G., 2023. Bioprinting of Poly(ethylene oxide) or Electrospun Polystyrene Microtube Embedded Sodium Alginate and Carboxymethyl Cellulose Hydrogel. Manufacturing Letters, 35, pp.194-201.
[6] Zhou, Y. and Ning, F., 2023. Directed Energy Deposition of SS 316L/SiC Composites Using Coincident and Coaxial Wire-Powder Feeding. Manufacturing Letters, 35, pp. 557-563.
[5] Zhou, Y. and Ning, F., 2022. A Feasibility Study on Directed Energy Deposition of SS 316L with Coaxial Wire-powder Feeding. Manufacturing Letters, 33, pp.686-691.
[4] Zhou, Y. and Ning, F., 2020. Effects of Build Orientation on Mechanical Properties of Curved-Surface AlSi10Mg Alloy Fabricated by Powder Bed Fusion Additive Manufacturing. In International Manufacturing Science and Engineering Conference (Vol. 84256, p. V001T01A021). American Society of Mechanical Engineers.
[3] Alelaumi, S., Zhou, Y., Khoshkhoo, A. and Ning, F., 2019. Selective Laser Melting of Curved Surface Metal Parts: A Fundamental Study on Surface Finish and Dimensional Accuracy. In International Manufacturing Science and Engineering Conference (Vol. 58745, p. V001T01A018). American Society of Mechanical Engineers.
[2] Zhou, Y., Chen, S., Guan, T., Cui, T., Liang, J., and Liu, C., 2017. The Study on Simulation Theory of Solidification Microstructure of Alloy Melt Pool in the Laser Additive Manufacturing Process. In International Conference on Materials Science and Biological Engineering (ICMSBE 2017).
[1] Guan, T., Chen, S., Zhou, Y., Cui, T., Liang, J., and Liu, C., 2017. Solidification Microstructure Simulation of Direct Laser Deposition Based on Cellular Automation. In 2017 2nd International Conference on Mechatronics and Information Technology (ICMIT 2017).
Journal Articles:
[10] Zhou, Y., Grandhi, M., Liu Z., Ning, F., 2024. Wire-Influenced Particle Dynamics and Fluid Flow Behaviors of Melt Pool in Coaxial Wire-Powder Fed Directed Energy Deposition of Metal Matrix Composites, Composites Part B: Engineering, Under review.
[9] Zhou, Y., Jiang, D., and Ning, F., 2024. Understanding the Formation of Laser-Induced Melt Pools with both Wire and Powder Feeding in Directed Energy Deposition, Additive Manufacturing, Under review.
[8] Zhou, Y., and Ning, F., 2023. Directed Energy Deposition with Coaxial Wire-Powder Feeding: Melt Pool Temperature and Microstructure. Journal of Manufacturing Science and Engineering, 145(8), pp.1-13.
[7] Zhou, Y., Zhang, P. and Ning, F., 2023. Joining of carbon fiber reinforced polymer/titanium stacks using directed energy deposition additive manufacturing. Composite Structures, 610, p.116775.
[6] Zhou, Y. and Ning, F., 2022. Joining CFRP/Ti Stacks by Directed Energy Deposition: Surface Topography Effects on Interface Formation and Bonding. Composites Part B: Engineering, p.110365.
[5] Zhou, Y., Abbara, E.M., Jiang, D., Arad A., Poliks, M.D., Ning, F., 2022. High-cycle fatigue properties of curved-surface AlSi10Mg parts fabricated by powder bed fusion additive manufacturing. Rapid Prototyping Journal, 28(7), pp. 1346-1360.
[4] Zhou, Y., Ning, F., Zhang, P. and Sharma, A., 2021. Geometrical, microstructural, and mechanical properties of curved-surface AlSi10Mg parts fabricated by powder bed fusion additive manufacturing. Materials & Design, 198, p.109360.
[3] Zhou, Y. and Ning, F., 2020. Build orientation effect on the geometric performance of curved-surface 316L stainless steel parts fabricated by selective laser melting. Journal of Manufacturing Science and Engineering, 142(12), p.121002.
[2] Zhou, Y., Chen, S., Chen, X., Liang, J., Liu, C. and Wang, M., 2020. The effect of laser scanning speed on microstructural evolution during direct laser deposition 12CrNi2 alloy steel. Optics & Laser Technology, 125, p.106041.
[1] Zhou, Y., Chen, S., Chen, X., Cui, T., Liang, J., and Liu, C., 2019. The evolution of bainite and mechanical properties of direct laser deposition 12CrNi2 alloy steel at different laser power. Materials Science and Engineering: A, 742, pp.150-161.
Peer-reviewed Conference Proceedings:
[9] Zhang, W., Zhao, Yi., Zhou, Y.*, 2024. Effects of SiC Reinforced Particles on Melt Pool Dynamics and Porosity Formation in Directed Energy Deposition of SS 316L Metal Matrix Composites. 2024 Annual International Solid Freeform Fabrication Symposium, Submitted.
[8] Zhang, W., Ning, F., Zhou, Y.*, 2024. Directed Energy Deposition of Ti6Al4V Wire with Continuous Layer Varied Laser Power. Manufacturing Letters, Accepted.
[7] Chen, Y., Zhou, Y., Abbara, E.M., Alhendi, M., Poliks, M.D., Ning, F., Zhou, Y.G., 2023. Bioprinting of Poly(ethylene oxide) or Electrospun Polystyrene Microtube Embedded Sodium Alginate and Carboxymethyl Cellulose Hydrogel. Manufacturing Letters, 35, pp.194-201.
[6] Zhou, Y. and Ning, F., 2023. Directed Energy Deposition of SS 316L/SiC Composites Using Coincident and Coaxial Wire-Powder Feeding. Manufacturing Letters, 35, pp. 557-563.
[5] Zhou, Y. and Ning, F., 2022. A Feasibility Study on Directed Energy Deposition of SS 316L with Coaxial Wire-powder Feeding. Manufacturing Letters, 33, pp.686-691.
[4] Zhou, Y. and Ning, F., 2020. Effects of Build Orientation on Mechanical Properties of Curved-Surface AlSi10Mg Alloy Fabricated by Powder Bed Fusion Additive Manufacturing. In International Manufacturing Science and Engineering Conference (Vol. 84256, p. V001T01A021). American Society of Mechanical Engineers.
[3] Alelaumi, S., Zhou, Y., Khoshkhoo, A. and Ning, F., 2019. Selective Laser Melting of Curved Surface Metal Parts: A Fundamental Study on Surface Finish and Dimensional Accuracy. In International Manufacturing Science and Engineering Conference (Vol. 58745, p. V001T01A018). American Society of Mechanical Engineers.
[2] Zhou, Y., Chen, S., Guan, T., Cui, T., Liang, J., and Liu, C., 2017. The Study on Simulation Theory of Solidification Microstructure of Alloy Melt Pool in the Laser Additive Manufacturing Process. In International Conference on Materials Science and Biological Engineering (ICMSBE 2017).
[1] Guan, T., Chen, S., Zhou, Y., Cui, T., Liang, J., and Liu, C., 2017. Solidification Microstructure Simulation of Direct Laser Deposition Based on Cellular Automation. In 2017 2nd International Conference on Mechatronics and Information Technology (ICMIT 2017).