Alber A. Sadek scite author profile

Please cite this article as: Jamshidinia, M., Atabaki, M.M., Zahiri, M., Kelly, S., Sadek, A., Kovacevic, R.,Microstructural Modification of Ti-6Al-4V by Using an In-Situ Printed Heat Sink in Electron Abstract Unidirectional heat transfer during additive manufacturing (AM) processes results in anisotropy of microstructure and mechanical properties in fabricated components. In the present study, the influence of in-situ printed heat sinks on the microstructure of Ti-6Al-4V was investigated. Different numbers of heat sinks were designed and produced by the Electron Beam Melting® (EBM) process. The coupons were characterized by an optical microscope, scanning electron microscope, tensile and hardness tests, and fracture analysis. An increase in the number of heat sinks was accompanied by a reduction in grain thickness. While elongated grains still formed in all coupons, due to the dominant heat transfer along the buildup direction. The refinement of microstructure was confirmed by a reduction in the average thickness of α-lath from 1.73 μm in the coupon with no heat sink to 1.01 μm in the coupon with the highest number of the heat sinks. The ultimate tensile strength and hardness were increased by increasing the number of heat sinks. The results of fractorgraphy suggested that coupons with the maximum number of heat sinks (5-HS) showed a more ductile fracture. Also, digital reconstruction of the fracture surface showed that the unmelted powder particles had an influence on the crack initiation.

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Effect of structural support on microstructure of nickel base superalloy fabricated by laser-powder bed fusion additive manufacturing

Song

McGaughy

Sadek

et al. 2019

Additive Manufacturing

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Alber A. Sadek

Effect of rare earth metal oxide additions to tungsten electrodes

Fracture toughness characterization of austempered ductile iron produced using both conventional and two-step austempering processes

Comparison of temperature and work function measurements obtained with different GTA electrodes

Microstructural modification of Ti–6Al–4V by using an in-situ printed heat sink in Electron Beam Melting® (EBM)

Effect of structural support on microstructure of nickel base superalloy fabricated by laser-powder bed fusion additive manufacturing

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