J. J. S. Dilip scite author profile

Selective laser melting involves melting and solidification of metal powder particles in a track-by-track and layer-by-layer method to fabricate 3D parts. The present investigation focuses on understanding the effect of laser power and scan speed on the evolution of melt pool, porosity and multiple thermal cycling effects on the microstructure in parts fabricated using selective laser melting. In this study, Ti-6Al-4V pre-alloyed powder was used to produce single-track deposits and bulk parts. Using different combinations of laser power and scan speeds, single-track deposits and bulk parts were produced. The cross-sections of the single-track deposits and bulk samples were prepared for metallographic observations and the melt pool shape and size and porosity were evaluated. When a low energy density was applied the un-melted powder particles produced irregularly shaped porosity, and a high energy density resulted in rounded porosity, which was due to keyhole effects. The samples produced with a proper combination of power and speeds were fully dense. Further, microstructural development under the influence of process condition was highlighted. Overall, the study demonstrates a good correlation between the single-track melt pool geometries, porosity in bulk parts and also demonstrates the microstructural inhomogeneity during deposition.

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Use of Friction Surfacing for Additive Manufacturing

Dilip¹,

Babu²,

Rajan³

et al. 2013

Materials and Manufacturing Processes

102

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Selective laser melting of HY100 steel: Process parameters, microstructure and mechanical properties

Dilip

Ram

Starr

et al. 2017

Additive Manufacturing

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Mechanical activation-assisted solid-state combustion synthesis of in situ aluminum matrix hybrid (Al3Ni/Al2O3) nanocomposites

Reddy

Rajasekhar

Malagavelli

et al. 2008

Journal of Alloys and Compounds

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J. J. S. Dilip

Influence of processing parameters on the evolution of melt pool, porosity, and microstructures in Ti-6Al-4V alloy parts fabricated by selective laser melting

Use of Friction Surfacing for Additive Manufacturing

Selective laser melting of HY100 steel: Process parameters, microstructure and mechanical properties

Mechanical activation-assisted solid-state combustion synthesis of in situ aluminum matrix hybrid (Al3Ni/Al2O3) nanocomposites

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