Google Scholar Profile

Page last updated 06/05/2024


  1. Strayer, S., Olleak, A., Vulimiri, P., Hinnebusch, S., Templeton, W.F., Narra, S.P. and To, A.C.. Controlling Multi-Track Melt Pool Size Variation Based on Local Thermal Environment for Inconel 718 Laser Powder Bed Fusion via Data-Driven Approaches. In preparation.
  2. Strayer, S., Olleak, A., Vulimiri, P., Hinnebusch, S., Templeton, W.F., Narra, S.P. and To, A.C.. CIFEM: Elucidating the Role of Local Thermal Environment on Multi-Track Melt Pool Morphology Variation for Inconel 718 Laser Powder Bed Fusion. In preparation.
  3. Strayer, S., Olleak, A., Vulimiri, P., Hinnebusch, S., Templeton, W.F., Narra, S.P. and To, A.C.. Local Thermal Environment Dependent Goldak Heat Source for Robust Multi-Track Melt Pool Morphology Prediction of Inconel 718 Laser Powder Bed Fusion. In preparation.
  4. Fody, J.M., Narra, S.P., Strayer, S., Templeton, W.F. and Newman, J.A., 2024. A semantic segmentation algorithm for automated rapid melt pool identification from cross-sectional micrographs. Materials Characterization, 211, p.113877. [link]
  5. Templeton, W.F., Hinnebusch, S., Strayer, S.T., To, A.C., Pistorius, P.C. and Narra, S.P., 2024. A mechanistic explanation of shrinkage porosity in laser powder bed fusion additive manufacturing. Acta Materialia, 266, p.119632. [link]
  6. Templeton, W.F., Hinnebusch, S., Strayer, S., To, A. and Narra, S.P., 2023. Finding the limits of single-track deposition experiments: an experimental study of melt pool characterization in laser powder bed fusion. Materials & Design, 231, p.112069. [link]
  7. Mostafaei, A., Ghiaasiaan, R., Ho, I.T., Strayer, S., Chang, K.C., Shamsaei, N., Shao, S., Paul, S., Yeh, A.C., Tin, S. and To, A.C., 2023. Additive manufacturing of nickel-based superalloys: A state-of-the-art review on process-structure-defect-property relationship. Progress in Materials Science, 136, p.101108. [link]
  8. Strayer, S.T., Templeton, W.J.F., Dugast, F.X., Narra, S.P. and To, A.C., 2022. Accelerating high-fidelity thermal process simulation of laser powder bed fusion via the Computational Fluid Dynamics Imposed Finite Element Method (CIFEM). Additive Manufacturing Letters, 3, p.100081. [link]
  9. Olleak, A., Dugast, F., Bharadwaj, P., Strayer, S., Hinnebusch, S., Narra, S. and To, A.C., 2022. Enabling Part-Scale Scanwise process simulation for predicting melt pool variation in LPBF by combining GPU-based Matrix-free FEM and adaptive Remeshing. Additive Manufacturing Letters, 3, p.100051. [link]
  10. Dugast, F., Apostolou, P., Fernandez, A., Dong, W., Chen, Q., Strayer, S., Wicker, R. and To, A.C., 2021. Part-scale thermal process modeling for laser powder bed fusion with matrix-free method and GPU computing. Additive Manufacturing, 37, p.101732. [link]
  11. Chen, Q., Zhao, Y., Strayer, S., Zhao, Y., Aoyagi, K., Koizumi, Y., Chiba, A., Xiong, W. and To, A.C., 2021. Elucidating the effect of preheating temperature on melt pool morphology variation in Inconel 718 laser powder bed fusion via simulation and experiment. Additive Manufacturing, 37, p.101642. [link]
  12. Paul, S., Liu, J., Strayer, S.T., Zhao, Y., Sridar, S., Klecka, M.A., Xiong, W. and To, A.C., 2020. A discrete dendrite dynamics model for epitaxial columnar grain growth in metal additive manufacturing with application to inconel. Additive Manufacturing, 36, p.101611. [link]
  13. Strayer, S.T., Moghaddam, S.R.M., Gusenoff, B., Gusenoff, J. and Beschorner, K.E., 2020. Contact Pressures Between the Rearfoot and a Novel Offloading Insole: Results From a Finite Element Analysis Study. Journal of Applied Biomechanics, 36(5), pp.326-333. [link]