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Robotic 3D Printing for Customized Industrial Components: IoT and AI-Enabled Innovation

T. Kanthimathi, N. Rathika, A. Jainul Fathima, K. Rajesh, R Thamizhamuthu

Year
2024
Citations
46

Abstract

Manufacturing has been transformed by robotic 3D printing, the Internet of Things (IoT), and Artificial Intelligence (AI). The research discusses how these cuttingedge advancements may maximize industrial component customization efficiency and precision. 3D printing's fundamentals and advances are explained to emphasize its importance in the current industry. Robotics improves 3D printing speed and accuracy, demonstrating how automation enhances output in many industrial contexts. In this environment, the IoT enables real-time monitoring and management of 3D printing processes and predictive maintenance, assuring uninterrupted output. It discusses the IoT's potential to improve resource use and waste reduction with 3D printing. Intelligent algorithms for design optimization, material selection, and mistake detection are used in robotic 3D printing. Case studies show how AI-driven innovations improve product quality and design customization, meeting the rising need for individualized industrial components. These technologies work together to change production, according to our study. It demonstrates how this integration reduces costs and wastes and improves product performance. The problems and future of this technology fusion are explained, highlighting the necessity for strong cybersecurity and ethical issues.

Keywords

3D printingInternet of ThingsComputer scienceManufacturing engineeringEngineeringEmbedded systemMechanical engineering

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