Avinash Mishra scite author profile

Avinash Mishra

4Publications

12Citation Statements Received

41Citation Statements Given

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Affiliations

Indian Institute of Technology Tirupati, Dr. A.P.J. Abdul Kalam Technical University

Publications

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Evaluation of Cu-Ti dissimilar interface characteristics for wire arc additive manufacturing process

Mishra

Paul

Mukherjee

et al. 2022

RPJ

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Purpose The purpose of this research is to show the characteristics of a Cu–Ti dissimilar interface produced by a wire arc-based additive manufacturing process. The purpose of this research was to determine the viability of the Cu–Ti interface for the fabrication of functionally graded structures (FGS) using the wire arc additive manufacturing (WAAM) process. Design/methodology/approach This paper used the WAAM process with variable current vis-à-vis heat input to demonstrate multiple Ti-6Al-4V (Ti64) and C11000 dissimilar fabrications. The hardness and microstructure of the dissimilar interfaces were investigated thoroughly. The formation of Cu–Ti intermetallic at the Ti64/Cu fusion interface is been revealed by scanning electron microscopy and energy dispersive X-ray analysis, while X-ray diffraction was used to identify various Cu–Ti intermetallic phases. The effect of microstructure on interfacial sensitivity and hardness are also investigated. Findings The formation of CuTi intermetallic and the β-phase transformation in Ti-6Al-4V are found to be heat input dependent. The Cu diffusion length increases as the heat input for Ti64 deposition increases, resulting in a greater Cu–Ti intermetallic thickness. The Cu–Ti interface properties improve when the heat input is less than approximately 250 J/mm or the deposition current is less than 90 A. The microhardness ranges from 55 to 650 HV from the Cu-side to the interface and from 650 to 350 HV from the interface to the Ti-side. Higher current increases interface hardness, which increases brittleness and makes the interface more prone to interfacial cracking. Originality/value Nonlinear components are needed for a variety of extreme engineering applications, which can be met by FGS with varying microstructure, composition and properties. FGS produced using the WAAM process is a novel concept that requires further investigation. Despite numerous studies on Ti-clad Cu, information on Cu–Ti interface characteristics is lacking. Furthermore, the suitability of the WAAM process for the development of Cu–Ti FGS is unknown. As a result, the goal of this research article is to fill these gaps by providing preliminary information on the feasibility of developing Cu–Ti FGS via the WAAM process.

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Stainless steel to aluminium joining by interfacial doping with Al2O3 powder in wire arc direct energy deposition process

Paul

Mishra²,

Mukherjee

et al. 2023

Materials Letters

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Interfacial characteristics of Ti6Al4V-IN718 dissimilar structure developed by wire-arc additive manufacturing using Monel-400 as an interlayer

Mishra¹,

Paul

Sharma³

et al. 2023

Materials Today: Proceedings

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Bimetallic Structure of Ti6Al4V/IN718 with CuSi Interlayer for Wire-Arc Directed Energy Deposition Process

et al. 2023

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Avinash Mishra

Evaluation of Cu-Ti dissimilar interface characteristics for wire arc additive manufacturing process

Stainless steel to aluminium joining by interfacial doping with Al2O3 powder in wire arc direct energy deposition process

Interfacial characteristics of Ti6Al4V-IN718 dissimilar structure developed by wire-arc additive manufacturing using Monel-400 as an interlayer

Bimetallic Structure of Ti6Al4V/IN718 with CuSi Interlayer for Wire-Arc Directed Energy Deposition Process

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