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Mechanical and Tribological Properties of Polymer Composites Developed by FDM
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Author(s): Pradeep Kumar G. S. (CHRIST University (Deemed), India), Sachit T. S. (Symbiosis Institute of Technology, Symbiosis International University (Deemed), India), Mruthunjaya M. (JSS Academy of Technical Education, India), Harish Kumar M. (CHRIST University (Deemed), India), Raghu Yogaraju (BMS College of Engineering, India) and Sasidhar Jangam (CHRIST University (Deemed), India)
Copyright: 2023
Pages: 13
Source title:
Development, Properties, and Industrial Applications of 3D Printed Polymer Composites
Source Author(s)/Editor(s): R. Keshavamurthy (Dayananda Sagar College of Engineering, India), Vijay Tambrallimath (Manipal Institute of Technology, Manipal Academy of Higher Education, Manipal, India) and J. Paulo Davim (University of Aveiro, Portugal)
DOI: 10.4018/978-1-6684-6009-2.ch004
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Abstract
In the coming years, researchers and manufacturers will be more concerned with the demand for products that are easy to construct and can be rendered seamlessly, even at complicated geometries, with the touch of a button. These requirements will be met by the advent of additive manufacturing. This will serve as the catalyst for a revolution. Additive layer manufacturing (ALM), also known as additive manufacturing (AM) or more commonly referred to as 3D printing, is a modern fabrication technology that uses a variety of raw materials to produce items such as medical implants and aircraft wing components by printing layers of material based on 3D digital models. In this chapter, the authors provide a comprehensive overview of the mechanical and tribological behaviour of ceramic, metallic, and fiber-reinforced polymer composites that are made by a range of additive manufacturing (AM) techniques. These composites can be used in a variety of applications, including aerospace, automotive, and medical.
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