Publications

Journal Articles

  1. Kong, D.K., Guo, A.F., Wu, H.L., Li, X.J., Wu, J.W., Wang, H.B., Hu, Y.B*., Qu, P., & Wang, S.Q. (2024). Vat photopolymerization of sponge bone needle bionic structure with high strength and toughness by mimicking the golden spiral of nautilus. Journal of Manufacturing Processes.
  2. Guo, A., Li, S., Wang, S., Zhai, Z., Qu, P., Guo, S., Kong, H., Tang, R., Liu, C., Han, W. & Hu, Y.B. (2024). “Digital light processing of multi-walled carbon nanotubes-reinforced photosensitive resin composites: effects on microstructures and mechanical properties.” Journal of Materials Research and Technology.
  3. Liu, C., Wu, H.L., Guo, A.F., Kong, D.K., Zhao, Z.Y., Wang, L., Yin, L.F., Xia, G.J., Su, X.F., & Hu, Y.B*. (2024). Vat photopolymerization of sepiolite fiber and 316L stainless steel-reinforced alumina with functionally graded structures. Materials.
  4. Wu, H.L Guo, A.F., Kong, D.K., Li, X.J., Wu, J.W., Wang, H.B., Qu, P., Wang, S.Q., Guo, S., Liu, C., Zhao, Z.Y., Gallaspie, J.G., Hu, Y.B. (2024). Vat photopolymerization of nacre-like carbon fiber reinforced biomimetic ceramic composites. Ceramics International.
  5. Kong, D.K., Guo, A.F., Wu, H.L., Li, X.J., Wu, J.W., Hu, Y.B.*, Q, P., & Wang, S.Q. (2024). Four-dimensional printing of polymer-derived ceramics with high-resolution, reconfigurability, and shape memory effects. Additive Manufacturing.
  6. Kong, D.K., Guo, A.F., Hu, Y.B.*, Zhou, X.Y., Wu, H.L., Li, X.J., Q, P., & Wang, S.Q. (2023). Alumina-based ceramic cores prepared by vat photopolymerization and buried combustion method. Materials Today Communications.
  7. Wang, H.L., Guo, A.F.*, Kong, D.K., Li, X.J., Wu, J.W., Hu, Y.B.*, Qu, P., Wang, S.Q., Wu, Y. & Liu, C. (2023). Vat photopolymerization of sepiolite fiber-toughened alumina: microstructure and rheological, physical, and mechanical properties. Materials Today Communications.
  8. Guo, A.F., Tang, R.J., Guo, S., Hu, Y.B*., Sheng, X.L., Zhang, Y.B., Zhang, M.K., Qu, P., & Wang, S.Q. (2023). Acoustic field-assisted powder bed fusion of tungsten carbide-reinforced 316l stainless steel composites. Journal of Materials Processes and Technology.
  9. Li, Y.Z., Zhang, D.Z., Hu, Y.B., & Cong, W.L. (2023). Laser directed energy deposition of CoCrFeNiTi high entropy alloy coatings: effects of powder geometry and laser power. International Journal of Advanced Manufacturing Technology.
  10. Wu, Y., Tang, R.J., Guo, A.F., Tao, X.D., Hu, Y.B*., Sheng, X.L., Qu, P., Wang, S.Q., Li, J.F., & Li, F.Y. (2023). Enhancing starch-based packaging materials: optimization of plasticizers and process parameters. Materials.
  11. Li, Y.Z., Garbie, M., Hu, Y.B., & Cong, W.L. (2023). The effects of scratching speed in ultrasonic vibration-assisted single diamond scratching process. Manufacturing Letters.
  12. Liu, C., Pandit, P.P., Li, Y.Z., Cong, W.L., & Hu, Y.B*. (2023). Insights into the effects of an acoustic field-assisted on inkjet printing of graphene-reinforced polydimethylsiloxane composites. Manufacturing Letters.
  13. Guo, A., Zhou, X., Kong, D., Kong, H., Wang, H., Zhu, Y., Qu, P., Wang, S., & Hu, Y.B. (2023). An insight into the effects of epoxy coating agent and sintering temperature on vat photopolymerization-printed Al2O3 partsCeramics International.
  14. Guo, A., Wang, J., Tang, R., Kong, H., Kong, D., Qu, P., Wang, S., Wang, H., & Hu, Y.B. (2023). Insights into the effects of epoxy resin infiltration on powder aging issue induced by powder recycling in powder bed fusion of Nylon12 materialsJournal of Materials Research and Technology.
  15. Guo, A., Tao, X., Kong, H., Zhou, X., Wang, H., Li, J., Li, F., & Hu, Y.B. (2023). Effects of aluminum hydroxide on mechanical, water resistance, and thermal properties of starch-based fiber-reinforced composites with foam structuresJournal of Materials Research and Technology.
  16. Li, Y., Hu, Y.B., Zhang, D., & Cong, W. (2023). Laser remelting of CoCrFeNiTi high entropy alloy coatings fabricated by directed energy deposition: Effects of remelting laser powerOptics & Laser Technology.
  17. Pandit, P., Liu, C., Iacono, S., Corti, G., & Hu, Y.B. (2022). Microstructural Characterization and Property of Carbon Fiber Reinforced High-Density Polyethylene Composites Fabricated by Fused Deposition ModelingMaterials.
  18. Guo, A., Kong, D., Zhou, X., Kong, H., Qu, P., Wang, S., Wang, H., & Hu, Y.B. (2022). Method for preparing damage-resistant 3D-printed ceramics via interior-to-exterior strengthening and tougheningAdditive Manufacturing.
  19. Wang, S., Zheng, C., Li, S., Guo, A., Qu, P., & Hu, Y.B. (2022). Free vibration of functionally graded carbon nanotube-reinforced composite damping structure based on the higher-order shear deformation theoryPolymer Composites.
  20. Guo, A., Liu, C., Li, S., Zhou, X., Wang, J., Wang, S., Qu, P., & Hu, Y.B. (2022). Water absorption rates and mechanical properties of material extrusion-printed continuous carbon fiber-reinforced nylon compositesJournal of Materials Research and Technology.
  21. Guo, A., Kong, D., Zhou, X., Qu, P., Wang, S., Li, J., Li, F., Wang, L., & Hu, Y.B. (2022). Evaluation of Material Reuse Degree in Additive Manufacturing by the Improved Resolution Coefficient Grey Correlation MethodProcess Safety and Environmental Protection.
  22. Wang, S., Guo, A., Liang, S., Qu, P., Hu, Y.B., & Liu, C. (2022). Structural dynamic properties of stiffened composite plates with embedded multi-layered viscoelastic damping membranesMechanics of Advanced Materials and Structures.
  23. Liu, C., Pandit, P.P., Parsons, C., Khan, F., & Hu, Y.B. (2022). Acoustic field-assisted inkjet-based additive manufacturing of carbon fiber-reinforced polydimethylsiloxane compositesJournal of Manufacturing Processes. DOI: 10.1016/j.jmapro.2022.05.059
  24. Hu, Y.B. (2021). Recent progress in field-assisted additive manufacturing: materials, methodologies, and applicationsMaterials Horizons. DOI: 10.1039/D0MH01322F.
  25. Hu, Y.B., Wang, H., Cong, W.L., & Zhao, B. (2020). Directed energy deposition of ZTA ceramic: novel microstructure formation and mechanical performance. Journal of Manufacturing Science and Engineering-Transactions of the ASME.
  26. Hu, Y.B., Cong W.L., Wang, X.L., Li, Y.C., Ning, F.D., & Wang, H. (2018). Laser deposition-additive manufacturing of TiB-Ti composites with novel three-dimensional quasi-continuous network microstructure: effects on strengthening and tougheningComposites Part B: Engineering,
  27. Hu, Y.B., Ning, F.D., Cong, W.L., Li, Y.C., Wang, X.L., & Wang, H. (2018). Ultrasonic vibration-assisted laser engineering net shaping of ZrO2-Al2O3 bulk parts: effects on crack suppression, microstructure, and mechanical properties. Ceramics International.
  28. Hu, Y.B., Ning, F.D., Wang, H., Cong, W.L., & Zhao, B. (2018). Laser engineered net shaping of quasi-continuous network microstructural TiB reinforced titanium matrix bulk composites: microstructure and wear performanceOptics & Laser Technology.
  29. Hu, Y.B., & Cong, W.L. (2018). A review on laser deposition-additive manufacturing of ceramics and ceramic reinforced metal matrix compositesCeramics International.
  30. Hu, Y.B., & Li, J.Z. (2017). Selective laser alloying of elemental titanium and boron powder: thermal models and experiment verificationJournal of Materials Processing Technology.
  31. Hu, Y.B., Zhao, B., Ning, F.D., Wang, H., & Cong, W.L. (2017). In-situ ultrafine three-dimensional quasi-continuous network microstructural TiB reinforced titanium matrix composites fabrication using laser engineered net shapingMaterials Letters.
  32. Hu, Y.B., Ning, F.D., Wang, X.L., Wang, H., Cong, W.L., & Li, Y.Z. (2017). Laser deposition-additive manufacturing of in situ TiB reinforced titanium matrix composites: TiB growth and part performanceThe International Journal of Advanced Manufacturing Technology
  33. Hu, Y.B., & Li, J.Z. (2016). Ultra-short laser melting of copper nanoparticles: a molecular dynamics studyInternational Journal of Energy for a Clean Environment.
  34. Ning, F.D., Hu, Y.B., Liu, Z.C., Wang, X.L., Li, Y.Z., Cong, W.L. (2018).  Ultrasonic vibration-assisted laser engineered net shaping of Inconel 718 parts: microstructural and mechanical characterizationJournal of Manufacturing Science and Engineering-Transactions of the ASME.
  35. Ning, F.D., Hu, Y.B., & Cong, W.L. (2018). Microstructure and mechanical property of TiB reinforced Ti matrix composites fabricated by ultrasonic vibration-assisted laser engineered net shapingRapid Prototyping Journal.
  36. Ning, F.D., Cong, W.L., Hu, Y.B., & Wang, H. (2017). Additive manufacturing of carbon fiber-reinforced plastic composites using fused deposition modeling: effects of process parameters on tensile propertiesJournal of Composite Materials.
  37. Ning, F.D., Hu, Y.B., Liu, Z.C., Cong, W.L., Li, Y.Z., & Wang, X.L. (2017). Ultrasonic vibration-assisted laser engineered net shaping of Inconel 718 parts: effects of ultrasonic vibrationProcedia Manufacturing.
  38. Ning, F.D., Wang, H., Hu, Y.B., Cong, W.L., Zhang, M., & Li, Y.Z. (2017). Rotary ultrasonic surface machining of CFRP composites: a comparison with conventional surface grindingProcedia Manufacturing.
  39. Ning, F.D., Cong, W.L., Wang, H., Hu, Y.B., Hu, Z.L., & Pei, Z.J. (2017). Surface grinding of CFRP composites with rotary ultrasonic machining: a mechanistic model on cutting force in the feed directionThe International Journal of Advanced Manufacturing Technology.
  40. Wang, H., Hu, Y.B., Cong, W.L ., Hu, Z.Y., & Wang, Y.Q. (2020). A novel investigation on horizontal and 3D elliptical ultrasonic vibrations in rotary ultrasonic surface machining of carbon fiber reinforced plastic compositesJournal of Manufacturing Processes.
  41. Wang, H., Hu, Y.B., Ning, F.D. , & Cong, W.L. (2020). Ultrasonic vibration-assisted laser engineered net shaping of Inconel 718 parts: effects of ultrasonic frequency on microstructural and mechanical propertiesJournal of Materials Processing Technology.
  42. Wang, H., Hu, Y.B., Cong, W.L., & Hu, Z.L. (2019). A mechanistic model on feeding-directional cutting force in surface grinding of CFRP composites using rotary ultrasonic machining with horizontal ultrasonic vibrationInternational Journal of Mechanical Sciences.
  43. Wang, H., Hu, Y.B., Cong, W.L., & Burks, A. (2019). Rotary ultrasonic machining of carbon fiber reinforced plastic composites: effects of ultrasonic frequencyThe International Journal of Advanced Manufacturing Technology.
  44. Wang, H., Ning, F.D., Li, Y.C., Hu, Y.B., & Cong, W.L. (2019). Scratching-induced surface characteristics and material removal mechanisms in rotary ultrasonic surface machining of CFRPUltrasonics.
  45. Wang, H., Hu, Y.B., Cong, W.L., & Burks, A. (2019). Rotary ultrasonic surface machining of CFRP composites: effects of horizontal ultrasonic vibrationProcedia Manufacturing.
  46. Wang, H., Ning, F.D., Hu, Y.B., & Cong, W.L., (2018). Surface grinding of CFRP composites using rotary ultrasonic machining: A comparison of workpiece machining orientationsThe International Journal of Advanced Manufacturing Technology.
  47. Wang, H., Cong, W.L., Ning, F.D., & Hu, Y.B., (2018). A study on the effects of machining variables in surface grinding of CFRP composites using rotary ultrasonic machiningThe International Journal of Advanced Manufacturing Technology.
  48. Wang, H., Ning, F.D., Hu, Y.B., Li, Y.C., Wang, X.L., & Cong, W.L., (2018). Edge trimming of carbon fiber reinforced plastic composites using rotary ultrasonic machining: effects of tool orientationsThe International Journal of Advanced Manufacturing Technology.
  49. Wang, H., Ning, F.D., Hu, Y.B., Du, D.P., & Cong, W.L. (2017). Surface grinding of CFRP composites using rotary ultrasonic machining: design of experiment on cutting force, torque, and surface roughnessInternational Journal of Manufacturing Research.
  50. Wang, H., Ning, F.D., Hu, Y.B., Fernando, P.K.S.C., Pei, Z.J., & Cong, W.L. (2016). Surface grinding of CFRP composites using rotary ultrasonic machining: effects of tool variablesAdvances in Mechanical Engineering.
  51. Shahrima, M., Hu, Y.B., Sooriyaarachchi, D., Cong, W.L., & Tan, Z. (2019). Laser engineered net shaping of antimicrobial and biocompatible titanium-silver alloysMaterials Science & Engineering C.
  52. Li, Y.Z., Hu, Y.B., Cong, W.L., Zhi, L., & Guo, Z.N. (2017). Additive manufacturing of alumina using laser engineered net shaping: effects of deposition variablesCeramics International.
  53. Li, Y.C., Ren, C.Z., Wang, H., Hu, Y.B., Ning, F.D., Wang, X.L., & Cong, W.L. (2019). Study of material removal mechanisms in grinding of C/SiC composites via single abrasive scratching testingCeramics International.
  54. Li, Y.C., Ren, C.Z., Wang, H., Hu, Y.B., Ning, F.D., Wang, X.L., & Cong, W.L. (2019). Edge surface grinding of CFRP composites using rotary ultrasonic machining: comparison of two machining methods. The International Journal of Advanced Manufacturing Technology.
  55. Wang, X.L., Deng, D.W., Hu, Y.B., Ning, F.D., Wang, H., Cong, W.L., & Zhang, H.C. (2018). Overhang structure and accuracy in laser engineered net shaping of Fe-Cr steelOptics & Laser Technology.
  56. Wang, X.L., Deng, D.W., Hu, Y.B., Liu, Z.C., & Zhang, H.C. (2017). Analytical modeling and experimental investigation of laser clad geometryOptical Engineering.
  57. Xu, P., Zhang, C.C., & Hu, Y.B. (2012). Production efficiency optimization with simulated annealing algorithm. Journal of Computer Application.

 

Patents

  1. Hu, Y.B., & Li, J. Z. (2019) Nano/micro scale porous structured alloys using selective laser alloying process based on elemental powders. U.S. Patent No. 2019/0283135.

Conference proceedings

  1. Pandit, P.P., Liu, C., Corti, G., & Hu, Y.B. (2022) Fused deposition modeling of carbon fiber reinforced high-density polyethylene: effects on microstructure and mechanical properties. Proceedings of the 2022 Manufacturing Science and Engineering Conference (MSEC2022-85702).
  2. Jahan, M., Hu, Y.B., Yeboah, K., & Stahley, J. (2021). Modifying “manufacturing processes” laboratory for online/hybrid learning due to COVID-19International Mechanical Engineering Congress and Exposition (IMECE2021-70797).
  3. Rong, Z.C., Liu, C., & Hu, Y.B. (2021). 4D printing of complex ceramic structures via controlling zirconia contents and patternsProceedings of the 2021 Manufacturing Science and Engineering Conference (MSEC2021-63642).
  4. Li, Y.Z., Zhang, D.Z., Wang, H., Hu, Y.B., & Cong, W.L. (2020). Laser engineered net shaping of graphene oxide reinforced titanium: effects of reinforcement and laser powerProceedings of the 2020 Manufacturing Science and Engineering Conference (2021-63642).
  5. Hu, Y.B., Wang, H., & Cong, W.L. (2019). Laser deposition-additive manufacturing of graphene oxide reinforced IN718 alloys: effects on surface quality, microstructure, and mechanical propertiesProceedings of the 2019 Manufacturing Science and Engineering Conference (MSEC2019-2985).
  6. Hu, Y.B., Wang, H., Li, Y.C., Ning, F.D., & Cong, W.L. (2018). Surface grinding of ZTA parts fabricated by laser engineered net shaping process: effects of ZrO2 content and ultrasonic vibrationProceedings of the 2018 Manufacturing Science and Engineering Conference (MSEC2018-6663), June 18 – 22, 2018, College Station, TX, USA.
  7. Hu, Y.B., Maharubin, S., Cong, W.L. & Tan, Z., (2018). Laser engineered net shaping of titanium-silver alloy for orthopedic implantProceedings of the 2018 Manufacturing Science and Engineering Conference (MSEC2018-6611), June 18 – 22, 2018, College Station, TX, USA.
  8. Hu, Y.B., Wang, H., Ning, F.D., Cong, W.L., & Li, Y.Z. (2017). Surface grinding of optical BK7/K9 glass using rotary ultrasonic machining: an experimental study. Proceedings of the ASME 2017 International Manufacturing Science and Engineering Conference (MSEC2017-2780), June 04 – 08, 2017, Los Angeles, CA, USA.
  9. Hu, Y.B., Wang, H., Ning, F.D., & Cong, W.L. (2016). Laser engineered net shaping of commercially pure titanium: effects of fabricating variablesProceedings of the ASME 2016 International Manufacturing Science and Engineering Conference (MSEC2016-8812), June 27 – July 01, 2016, Blacksburg, VA, USA.
  10. Hu, Y.B., Wang, H., Ning, F.D., & Cong, W.L. (2016). Compressive property comparisons between laser engineered net shaping of in situ TiB-Ti composites and CP-Ti materials. 2016 Annual International Solid Freeform Fabrication Symposium, August 08 – 10, Austin, 2016, TX, USA.
  11. Li, Y.Z., Zhang, D.Z., Wang, H., Hu, Y.B., & Cong, W.L. Laser engineered net shaping of graphene oxide reinforced titanium: effects of reinforcement and laser power. Proceedings of the 2020 Manufacturing Science and Engineering Conference.
  12. Wang, H., Ning, F.D., Hu, Y.B., Li, Y.C., Wang, X.L., & Cong, W.L. (2018). Edge trimming of CFRP composites using rotary ultrasonic machining: effects of ultrasonic vibration. Proceedings of the ASME 2018 International Manufacturing Science and Engineering Conference (MSEC2018-6362), June 18 – 22, 2018, College Station, TX, USA.
  13. Wang, H., Hu, Y.B., Ning, F.D., Li, Y.Z., Zhang, M., Cong, W.L., & Smallwood, S. (2017). Surface grinding of CFRP composites using rotary ultrasonic machining: effects of ultrasonic powerProceedings of the ASME 2017 International Manufacturing Science and Engineering Conference (MSEC2017-2726), June 04 – 08, 2017, Los Angeles, CA, USA.
  14. Ning, F.D., Hu, Y.B., Liu, Z.C., & Cong, W.L. (2016). Microstructural and mechanical performance of Al2O3 nanoparticle reinforced 17-4 PH stainless steel bulk composite parts fabricated by laser engineered net shaping process. 2016 Annual International Solid Freeform Fabrication Symposium, August 08 – 10, 2016, Austin, TX, USA.
  15. Zhang, D.Z.,Wang, H., Hu, Y.B., Chen, X.X., Cong, W.L., & Burks, R.A. Rotary ultrasonic machining of CFRP composites: effects of carbon fiber reinforcement structureProceedings of the 2019 Manufacturing Science and Engineering Conference (MSEC2019-3014).
  16. Chen, X.X., Wang, H., Hu, Y.B., Zhang, D.Z.,Cong, W.L., & Burks, R.A. Rotary ultrasonic machining of CFRP composites: effects of machining variables on workpiece delaminationProceedings of the 2019 Manufacturing Science and Engineering Conference (MSEC2019-3019)

Invited Talks

  1. State-of-the-Art in Additive Manufacturing. To fifth graders of Talawanda School during the Science Day event, May 2023.
  2. Facilities, equipment, and other resources in MME department at Miami University. To high school students during the Make it Miami event held at Miami University, April 2023.
  3. Acoustic Field-assisted Additive Manufacturing: Challenges and Opportunities. During the United Performance Metals visit held at Miami University, April 2023.
  4. Field-assisted Additive Manufacturing. To faculty and graduate students at Liaocheng University in China, Mar., 2022
  5. Acoustic Field-assisted Additive Manufacturing. On the Materials Science, Engineering and Technology webinar held via zoom, Jan. 2022.
  6. Additive manufacturing of high-performance materials. To graduate students of the IENG 593A class at West Virginia University, Oct. 2021.
  7. Additive manufacturing: importance of design, simulation, and teamwork in engineering. To 12 female and 6 male high school students during the Summer Scholar Module 1: Engineering Grand Challenges, July 2021.