AI-Driven Data Analysis of Quantifying Environmental Impact and Efficiency of Shape Memory Polymers

Article


Olawumi, M. A., Oladapo, B. I., Olugbade, T. O., Omigbodun, F. and Olawade, D. B. 2024. AI-Driven Data Analysis of Quantifying Environmental Impact and Efficiency of Shape Memory Polymers. Biomimetics. 9 (8), p. 490. https://doi.org/10.3390/biomimetics9080490
AuthorsOlawumi, M. A., Oladapo, B. I., Olugbade, T. O., Omigbodun, F. and Olawade, D. B.
Abstract

This research investigates the environmental sustainability and biomedical applications of shape memory polymers (SMPs), focusing on their integration into 4D printing technologies. The objectives include comparing the carbon footprint, embodied energy, and water consumption of SMPs with traditional materials such as metals and conventional polymers and evaluating their potential in medical implants, drug delivery systems, and tissue engineering. The methodology involves a comprehensive literature review and AI-driven data analysis to provide robust, scalable insights into the environmental and functional performance of SMPs. Thermomechanical modeling, phase transformation kinetics, and heat transfer analyses are employed to understand the behavior of SMPs under various conditions. Significant findings reveal that SMPs exhibit considerably lower environmental impacts than traditional materials, reducing greenhouse gas emissions by approximately 40%, water consumption by 30%, and embodied energy by 25%. These polymers also demonstrate superior functionality and adaptability in biomedical applications due to their ability to change shape in response to external stimuli. The study concludes that SMPs are promising sustainable alternatives for biomedical applications, offering enhanced patient outcomes and reduced environmental footprints. Integrating SMPs into 4D printing technologies is poised to revolutionize healthcare manufacturing processes and product life cycles, promoting sustainable and efficient medical practices.

JournalBiomimetics
Journal citation9 (8), p. 490
ISSN2313-7673
Year2024
PublisherMDPI
Publisher's version
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Anyone
Digital Object Identifier (DOI)https://doi.org/10.3390/biomimetics9080490
Publication dates
Online14 Aug 2024
Publication process dates
Accepted07 Aug 2024
Deposited23 Aug 2024
Copyright holder© 2024, The Author(s)
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