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Naga Aditya Yarlapati

Naga Aditya Yarlapati

Additive manufacturing researcher focused on refractory alloys

Toronto, Ontario, Canada
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Summary

Specialist in additive manufacturing of metals: Y.N. Aditya's work centers on metal additive manufacturing processes (LPBF, directed energy deposition, wire- and arc-based methods), with a focus on how processing influences microstructure and mechanical properties. uwaterloo+2
Research on refractory and high-performance alloys: Contributions include reviews and studies on refractory high-entropy alloys and additively manufactured high-strength alloys, indicating a research emphasis on challenging alloy systems for AM. doaj+2
Collaborative, multi-institution experience across India and Canada: Career includes research appointments at IISc (India), University of Waterloo (Canada), and University of Toronto (Canada), reflecting collaboration with academic groups in materials and additive manufacturing. ac+2
Active academic publishing profile: Appears as co-author on multiple peer-reviewed articles and reviews (2024–2025) addressing microstructure, heat treatment effects, and process–structure–property relationships in AM metals. google+2

Work

Education

Projects

Writing

Additive manufacturing of refractory high-entropy alloys: A critical review of fundamentals and advances

January 1, 2025

A review covering powder preparation, printability, challenges (microcracks, porosity, elemental loss), and modeling approaches for refractory high-entropy alloys (RHEAs) in additive manufacturing.

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Effects of wire feeding direction on the deposition characteristics of 316L stainless steel in laser-directed energy deposition

January 1, 2025

Investigation of how wire feeding direction influences deposition behavior in laser-directed energy deposition of 316L stainless steel.

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Evolution of site-specific solidification microstructure and texture during additive manufacturing of stainless steel 316L by laser powder bed fusion

January 1, 2025

Study on how site-specific thermal conditions during LPBF affect grain morphology, crystallographic texture, and dislocation density in SS316L builds.

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Effect of Post-Print Heat Treatment on the Microstructure and Hardness of Aluminum Alloy ER4943 Produced by Arc-Directed Energy Deposition

January 1, 2025

Examination of how post-print heat treatment alters microstructure and hardness of ER4943 produced by arc-directed energy deposition.

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Processing and Development of Porous Titanium for Biomedical Applications: A Comprehensive Review

January 1, 2025

Comprehensive review on powder metallurgy and additive manufacturing approaches for porous titanium scaffolds and their structure–property–biological performance relationships.

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