×

img Accessibility Controls

Research Projects Banner

Research Projects

Underlying Mechanisms of Solidification Microstructure Formation during Metal Additive Manufacturing

Implementing Organization

Indian Institute of Technology (IIT), Roorkee
Principal Investigator
Dr. Supriyo Ghosh
Indian Institute Of Technology (IIT) Roorkee, Uttarakhand

Project Overview

Metal-based additive manufacturing (AM) processes produce parts with improved properties compared to conventional manufacturing processes. However, most metal alloys cannot be reliably printed due to the non-equilibrium nature of melting and solidification dynamics during AM. This proposal aims to understand the underlying physical mechanisms of microstructure formation during ultrarapid cooling rates typical of AM to suggest approaches to minimize and control microstructural heterogeneities for improved printability and microstructure robustness. The physical effects of cooling rates and alloy parameters on rapidly moving complex solid-liquid interface shapes during non-steady thermal conditions in heterogeneous liquid during AM need to be well-understood to control grain size and final microstructure. Mesoscale phase-field simulations will be used to study the solidification dynamics and microstructure formation in metal alloys under AM conditions. The simulation results will lead to strategies to improve composition homogeneity and phase control. Solidification maps will be constructed in view of various solidification morphologies as a function of AM solidification conditions, i.e., thermal gradient and rate of solidification, to guide microstructure formation and control during additive processing. The research directions will develop a detailed understanding of the underlying mechanisms of microstructure formation under AM conditions, potentially advancing strategies to identify "AM-friendly" robust microstructures to achieve targeted properties. The overall framework proposed will apply to diverse families of materials, including alloys, superalloys, and intermetallics, accelerating broad adoption of AM and enabling the design of new alloy systems specifically for additive processing.

Source

Source
Science and Engineering Research Board (SERB), DST 2022-23
Funding Organization
Funding Organization
Science and Engineering Research Board (SERB), New Delhi
Quick Information
Area of Research
Engineering Sciences
Start Date
2022
End Date
2024
Status
Completed
Contact
supriyo.ghosh@mt.iitr.ac.in
Output
No. of Research Paper
00
Technologies (If Any)
00
No. of PhD Produced
00
Publications
00
No. of Patents
Filed : 00
Grant : 00
Disclaimer: Information available on this portal is sourced from various organizations and is provided for informational purposes only. Users are advised to verify details from the respective official sources.
arrowtop
Latest Updates
Loading…