R.J. Vikram scite author profile

The evolution of microstructure and texture during selective laser melting (SLM) of silver alloy-sterling silver 925 (AM Ag925) has been investigated and analyzed vis-a`-vis cast sterling silver (AC Ag925). The microstructure of AM Ag925 was characterized by a single-phase silver-rich face-centered cubic solid solution with dendritic morphology, along with some locally distributed micro-segregated copper-germanium (Cu-Ge)-rich regions. Each adjacent dendritic feature consists of Ag-Cu-rich and Ag-Ge-rich regions and appears as alternate dark and bright regions. On the other hand, the as-cast AC Ag925 microstructure comprises Ag and Cu phases. Specific heat treatment was employed, which led to an equiaxed microstructure in AM Ag925 with Cu distributing along grain boundaries while the microstructure of AC Ag925 had Cu precipitates inside the matrix. Bulk texture studies revealed that the solidified textures were very weak for AM Ag925, and a random texture is observed. On the other hand, for the AC Ag925 specimens, a typical fiber texture is observed. Both AC Ag925 and AM Ag925 showed significant deviation from 100 h i solidification texture and influences the mechanical properties.

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Design of a new cobalt base nano-lamellar eutectic high entropy alloy

Vikram

Gupta

Suwas

2021

Scripta Materialia

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Texture Evolution in Metallic Materials During Additive Manufacturing: A Review

Suwas

Vikram

2021

Trans Indian Natl. Acad. Eng.

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R.J. Vikram

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Effect of heat treatment on the modification of microstructure of selective laser melted (SLM) IN718 and its consequences on mechanical behavior

Investigating the Structure, Microstructure, and Texture in Selective Laser-Melted Sterling Silver 925

Design of a new cobalt base nano-lamellar eutectic high entropy alloy

Texture Evolution in Metallic Materials During Additive Manufacturing: A Review

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