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Multifunctional Additive and Ablative Materials Processing via Quasi-Continuous Wave Fiber Laser for Novel Industrial Applications

Implementing Organization

Indian Institute of Technology (IIT)
Principal Investigator
Dr. Ramesh Kumar Singh
Indian Institute Of Technology Bombay (IITB), Maharashtra
rsingh@iitb.ac.in
CO-Principal Investigator
Mr. Vinod AR
Central Manufacturing Technology Institute (CMTI), Bangalore, Karnataka-560022, Prof. Soham Sanjeev Mujumdar, Indian Institute Of Technology Bombay (IITB), Maharashtra-400076, Prof. Deepak Marla, Indian Institute Of Technology Bombay (IITB), Maharashtra-400076, Mr. Manjunath BN, Central Manufacturing Technology Institute (CMTI), Bangalore, Karnataka-560022

Project Overview

The Quasi Continuous Wave (QCW) fiber laser, introduced in 2011, is a flexible laser that can operate in continuous wave or pulsed mode with peak powers of 10 times the average power. These lasers are versatile and can be used for various applications, including additive manufacturing, cutting and drilling, and high-speed cutting of highly reflective materials. They can also replace Nd:YAG lasers used for deep hole drilling due to higher wall plug efficiencies and pulse repetition rates. A project aims to address technology challenges faced by the aluminum, forging, and textile industries using QCW lasers. The project will be conducted in collaboration with Aditya Birla Science and Technology Limited, Bharat Forge, and CMTI, focusing on multifunctional additive and ablative materials processing. Traditional repair methods like thermal spraying or welding are imprecise and often result in poor quality. To address this issue, a laser additive manufacturing-based robotic repair and restoration technology is proposed, which could lead to significant savings in time and cost by extending the service life of high-value components. The research aims to develop scientific knowledge and technology for an automated robotic restoration system, which includes modules such as autonomous damage detection, path planning, robotic material deposition, finishing, and inspection. QCW lasers are particularly effective in high-speed cutting and deep-hole microdrilling, which are currently imported from Germany. This project aims to develop indigenous competencies for complex manufacturing processes and support the ""Make in India"" initiative.

Source

Source
Science and Engineering Research Board (SERB), DST 2022-23
Funding Organization
Funding Organization
Anusandhan National Research Foundation (ANRF)
Quick Information
Area of Research
Engineering Sciences
Focus Area
Manufacturing
Start Date
2023
End Date
2028
Sanction Amount
₹ 1.57 Cr
Status
Ongoing
Output
No. of Research Paper
00
Technologies (If Any)
00
No. of PhD Produced
00
Publications
00
No. of Patents
Filed : 00
Grant : 00
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