Documents dont l'auteur est "Muhammad, Waqas"

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Nombre de documents: 8

C

Chakraborty, A., Muhammad, W., Masse, J.-P., Tangestani, R., Ghasri-Khouzani, M., Wessman, A., & Martin, É. (2023). Role of alloy composition on micro-cracking mechanisms in additively manufactured Ni-based superalloys. ACTA Materialia, 255, 16 pages. Lien externe

Chakraborty, A., Tangestani, R., Batmaz, R., Muhammad, W., Plamondon, P., Wessman, A., Yuan, L., & Martin, E. (2022). In-process failure analysis of thin-wall structures made by laser powder bed fusion additive manufacturing. Journal of Materials Science and Technology, 98, 233-243. Lien externe

Chakraborty, A., Tangestani, R., Muhammad, W., Sabiston, T., Masse, J.-P., Batmaz, R., Wessman, A., & Martin, É. (2022). Micro-cracking mechanism of RENE 108 thin-wall components built by laser powder bed fusion additive manufacturing. Materials Today Communications, 30, 103139 (14 pages). Lien externe

Eftekhari, N., Muhammad, W., Haftlang, F., Zarei-Hanzaki, A., & Martin, É. (2020). Microstructural evolution and corrosion behavior of Sanicro 28 during thermomechanical processing. Materials Today Communications, 24, 10 pages. Lien externe

Im, S., Ghasri-Khouzani, M., Muhammad, W., Batmaz, R., Esmati, K., Chakraborty, A., Natarajan, A., & Martin, É. (2023). Evaluation of Different Sintering Agents for Binder Jetting of Aluminum Alloy. Journal of Materials Engineering and Performance, 32(21), 9550-9560. Lien externe

Muhammad, W., Batmaz, R., Natarajan, A., & Martin, É. (2022). Effect of binder jetting microstructure variability on low cycle fatigue behavior of 316L. Materials Science and Engineering a-Structural Materials Properties Microstructure and Processing, 839, 142820 (12 pages). Lien externe

Martin, É., Muhammad, W., Detor, A. J., Spinelli, I., Wessman, A., & Wei, D. (2020). “Strain-annealed” grain boundary engineering process investigated in Hastelloy-X. Materialia, 9. Lien externe

Tangestani, R., Sabiston, T., Chakraborty, A., Muhammad, W., Lang, Y., & Martin, É. (2021). An Efficient Track-Scale Model for Laser Powder Bed Fusion Additive Manufacturing: Part 1- Thermal Model. Frontiers in Materials, 8, 753040 (14 pages). Disponible

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