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Saurabh Kumar Gupta

VLSI Engineer · Wipro Technologies

https://researchid.co/saurabhkg
@wipro.com
17Scopus Publications
244Google Scholar Citations
9Google Scholar h-index
8Google Scholar i10-index

Research Interests

Additive Manufacturing; Failure Analysis and Materials Reliability; Microstructural Characterization (EBSD, TEM); Semiconductor Materials and Device Reliability

Biography

I am currently working as a VLSI Engineer at Wipro Technologies, serving as a Failure Analysis Engineer at client location Apple Inc.. My work focuses on failure analysis of semiconductor devices, involving advanced characterization, root cause identification, and reliability assessment under complex service conditions. Previously, I have been engaged in research on advanced metallic materials and additive manufacturing, with a focus on microstructure–property relationships, deformation mechanisms, and performance of titanium alloys for structural and biomedical applications. My experience includes the use of advanced characterization techniques such as EBSD, ECCI, and TEM. I aim to bridge industry and academia by integrating real-world reliability challenges with fundamental materials and manufacturing science. I am particularly interested in teaching courses related to manufacturing, materials engineering, and failure analysis, while developing a research program in advanced manufa

Education

Ph.D: Doctor of Philosophy (PhD): Materials Engineering, IISc Bangalore Master of Technology (M.Tech): Materials Science, IIT Kanpur Bachelor of Technology (B.Tech): Mechanical Engineering, AKTU

Recent Scopus Publications

  1. Augmenting tribocorrosion performance of additively manufactured Ti-6Al-4V for biomedical applications
    Surfaces and Interfaces, 2026
  2. Effect of microstructure and crystallographic texture on high-temperature dynamic deformation behaviour of Ti-6Al-4 V alloy: a post-test analysis on texture evolution and deformation mechanism
    Philosophical Magazine, 2025
  3. Enhanced fracture toughness of additively manufactured Ti-6Al-4V ELI
    International Journal of Fracture, 2025
  4. Application of 3D printing for customised treatment of upper limb disorders
    Journal of Hand and Microsurgery, 2025
  5. Additive manufacturing of a low modulus biomedical Ti–Nb–Ta–Zr alloy by directed energy deposition
    Bioprinting, 2024

Research Outputs

Patient-specific Bone plate design for treating Upper Limb Disorders

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