Multiscale Modelling of Multifunctional Composites: A Review

S. Suresh Babu, A. Mourad
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Abstract

Multi-scale modelling is a cornerstone for the relatively new class of hierarchical materials which can perform multifunctional tasks, owing to their electrical, magnetic or thermal properties. Careful design strategies are to be devised, in-order to maintain their multi-functionality over the expected range of operation. In this study, we focus on these materials, which can be manufactured using a specialized technique of additive manufacturing, known as fused deposition modelling (FDM), owing to its flexibility and compatibility, working with polymer based materials. A review has been made on the various parameters affecting the manufacturing process, and how these variations can affect the properties of the end product. Future research directions are also pointed out, including stimuli responsive printing technique, popularly known as 4D printing and integration of neural networks into the manufacturing process which can improve the overall design lifecycle efficiency. This can involve autonomous production of test specimen, and revert back the data for model improvement, thereby enhancing predictive capabilities. The major focus of this work is on how we can use our current knowledge and techniques in the design of efficient and effective multifunctional composite materials from the bottoms-up approach.
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多功能复合材料的多尺度建模研究进展
由于其电、磁或热特性,多尺度建模是相对较新的分层材料类的基石,可以执行多功能任务。为了在预期的操作范围内保持其多功能,必须设计出仔细的设计策略。在这项研究中,我们将重点放在这些材料上,这些材料可以使用一种专门的增材制造技术来制造,这种技术被称为熔融沉积建模(FDM),因为它具有灵活性和兼容性,可以与聚合物基材料一起工作。回顾了影响制造过程的各种参数,以及这些变化如何影响最终产品的性能。指出了未来的研究方向,包括刺激响应打印技术,即众所周知的4D打印,以及将神经网络集成到制造过程中,以提高整体设计生命周期效率。这可以包括自主生产测试样品,并返回数据用于模型改进,从而提高预测能力。这项工作的主要重点是如何利用我们现有的知识和技术,从下至上的方法设计高效和有效的多功能复合材料。
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