Found 17 results
Author Title [ Type(Desc)] Year
Filters: Author is Pasebani, Somayeh  [Clear All Filters]
Conference Paper
S. Alsagabi, Pasebani, S., and Charit, I., High Temperature Tensile Properties and Related Microstructural Evolution in Grade 92 Steel, in Mechanical and Creep Behavior of Advanced Materials, Cham, 2017, pp. 229–242.
Journal Article
A. K. Dutt, Pasebani, S., Charit, I., and Mishra, R. S., On the creep behavior of dual-scale particle strengthened nickel based alloy, MSA Materials Science & Engineering A, vol. 676, pp. 406-410, 2016.
S. Pasebani and Charit, I., Effect of alloying elements on the microstructure and mechanical properties of nanostructured ferritic steels produced by spark plasma sintering, Journal of Alloys and Compounds, vol. 599, pp. 206–211, 2014.
S. Pasebani, Charit, I., and Mishra, R. S., Effect of tool rotation rate on constituent particles in a friction stir processed 2024Al alloy, MLBLUE Materials Letters, vol. 160, pp. 64-67, 2015.
S. Pasebani, Ghayoor, M., Badwe, S., Irrinki, H., and Atre, S. V., Effects of atomizing media and post processing on mechanical properties of 17-4 PH stainless steel manufactured via selective laser melting, Additive Manufacturing, vol. 22, pp. 127–137, 2018.
H. Irrinki, Jangam, J., Pasebani, S., Badwe, S., Stitzel, J., Kate, K., Gulsoy, O., and Atre, S., Effects of particle characteristics on the microstructure and mechanical properties of 17-4 PH stainless steel fabricated by laser-powder bed fusion, Powder Technology, vol. 331, 2018.
H. Irrinki, Dexter, M., Barmore, B., Enneti, R., Pasebani, S., Badwe, S., Stitzel, J., Malhotra, iv, R., and Atre, S., Effects of Powder Attributes and Laser Powder Bed Fusion (L-PBF) Process Conditions on the Densification and Mechanical Properties of 17-4 PH Stainless Steel, JOM, vol. 68, pp. 860–868, 2016.
S. Alsagabi, Charit, I., and Pasebani, S., The Irradiation Performance and Microstructural Evolution in 9Cr-2W Steel Under Ion Irradiation, Journal of Materials Engineering and Performance, vol. 25, pp. 401–408, 2016.
S. Pasebani, I., C., S.F., A., Y., W., J., B., K.N., A., D.P., B., J.I., C., S., P., I., C., Y., W., J., B., K.N., A., D.P., B., J.I., C., and S.F., A., Lanthana-bearing nanostructured ferritic steels via spark plasma sintering, J Nucl Mater Journal of Nuclear Materials, vol. 470, pp. 297 - 306, 2016.
S. Pasebani, I., C., Y.Q., W., D.P., B., and J.I., C., Mechanical alloying of lanthana-bearing nanostructured ferritic steels, Acta Mater Acta Materialia, vol. 61, pp. 5605-5617, 2013.
S. Pasebani, Charit, I., Burns, J., Alsagabi, S., Butt, D. P., Cole, J. I., Price, L. M., and Shao, L., Microstructural stability of a self-ion irradiated lanthana-bearing nanostructured ferritic steel, NUMA Journal of Nuclear Materials, vol. 462, pp. 191-204, 2015.
S. Pasebani and Toroghinejad, M. Reza, Nano-grained 70/30 brass strip produced by accumulative roll-bonding (ARB) process, Materials science & engineering. A, Structural materials, properties, microstructure and processing., vol. 93, p. 491, 2010.
S. Pasebani, Dutt, A. K., Charit, I., and Mishra, R. S., Nickel-Chromium Alloys: Engineered Microstructure via Spark Plasma Sintering, Materials Science Forum, vol. 783-786, pp. 1099–1104, 2014.
S. Pasebani, Dutt, A. K., Burns, J., Charit, I., and Mishra, R. S., Oxide dispersion strengthened nickel based alloys via spark plasma sintering, MSA Materials Science & Engineering A, vol. 630, pp. 155-169, 2015.
S. Pasebani, Charit, I., Guria, A., Wu, Y., Burns, J., Butt, D. P., Cole, J. I., and Shao, L., A preliminary investigation of high dose ion irradiation response of a lanthana-bearing nanostructured ferritic steel processed via spark plasma sintering, Journal of Nuclear Materials, vol. 495, pp. 78–84, 2017.
S. Pasebani, Charit, I., Butt, D. P., Cole, J. I., Wu, Y., and Burns, J., Sintering Behavior of Lanthana-Bearing Nanostructured Ferritic Steel Consolidated via Spark Plasma Sintering, ADEM Advanced Engineering Materials, vol. 18, pp. 324-332, 2016.
S. Pasebani, Toroghinejad, M. Reza, Hosseini, M., and Szpunar, J., Textural evolution of nano-grained 70/30 brass produced by accumulative roll-bonding, Materials Science & Engineering A, vol. 527, pp. 2050–2056, 2010.