Peer Reviewed Article
Vol. 11 (2024)
AI-Enhanced Reciprocal Symmetry in Nanoparticle-Thermoplastic Compounding: Towards a Digital Transformation in Materials Science
NUS Graduate School (NUSGS), National University of Singapore, Singapore
Senior Software Engineer, Charter Communications, St Louis, Missouri, USA
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Submitted
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28 July 2024
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Published
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15-02-2024
Abstract
This study explores the transformative potential of artificial intelligence (AI) in nanoparticle-thermoplastic compounding, focusing on enhancing reciprocal symmetry to achieve superior material properties. The principal objective is to investigate how AI algorithms can optimize nanoparticle dispersion within thermoplastic matrices, leading to improved performance and broader application potential. Utilizing a secondary data-based methodology, the research involves a comprehensive review and analysis of existing literature, including peer-reviewed journal articles, industry reports, and relevant case studies. Key findings highlight that AI significantly enhances predictive accuracy and optimization capabilities in nanocompounding. Machine learning and deep learning models accurately predict nanoparticle behavior, ensuring uniform dispersion and consistent material properties. Practical applications in the automotive, healthcare, and consumer electronics industries demonstrate tangible benefits, including improved material strength, biocompatibility, and thermal and electrical conductivity. AI-driven processes also contribute to sustainability by minimizing waste and reducing energy consumption. Technical implications underscore the role of AI in driving digital transformation within materials science. AI facilitates data-driven decision-making, automation, and innovation, leading to more efficient and accurate compounding processes. Future research should focus on integrating AI with IoT and smart manufacturing systems, developing more sophisticated algorithms, and promoting collaborative research and open data initiatives. This study concludes that AI-enhanced reciprocal symmetry in nanoparticle-thermoplastic compounding holds significant promise for advancing materials science and various industry applications.
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