Predicting the Thermal Protective Performance of Smart Fabric Systems With a Shape Memory Layer Using Machine Learning Models

IF 2.4 4区管理学 Q3 BUSINESS

Clothing and Textiles Research Journal Pub Date : 2023-06-20 DOI:10.1177/0887302x231183737

Mengjiao Pan, Lijun Wang, Xinyi Lu, J. Xu, Yehu Lu, Jiazhen He

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引用次数: 0

Abstract

The utilization of shape memory alloy (SMA) in shape memory fabric (SMF) has revolutionized thermal protective clothing, significantly enhancing its thermal protection. However, the cost- and time-consuming process of SMA shape memory training and performance testing can be optimized for improved efficiency. This study addresses this challenge by developing machine learning models to predict the thermal protection of a smart fabric system (SFS) with a SMF. The training data was sourced from the previous experimental studies, and six features significantly impacting thermal protection were identified. Results demonstrated that gradient boosting regressor (GBR) model exhibited the highest accuracy, with the SMA interval emerging as the most critical feature in determining thermal protection. Moreover, the GBR model predicted that SFS presented the best thermal protection when the dry SMF was woven by SMA of 2 cm interval and aramid 1414 of 20 roots/cm density, located between the moisture barrier and thermal liner vertically.

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使用机器学习模型预测具有形状记忆层的智能织物系统的热防护性能

形状记忆合金(SMA)在形状记忆织物(SMF)中的应用使热防护服发生了革命性的变化，显著提高了其热防护性能。然而，SMA形状记忆训练和性能测试的成本和时间可以优化，以提高效率。本研究通过开发机器学习模型来预测具有SMF的智能织物系统(SFS)的热保护，从而解决了这一挑战。训练数据来源于之前的实验研究，确定了六个显著影响热防护的特征。结果表明，梯度增强回归(GBR)模型具有最高的准确性，SMA区间成为确定热防护的最关键特征。此外，GBR模型预测，当以2 cm间距的SMA和20根/cm密度的芳纶1414织造的干燥SMF垂直位于防潮层和保温衬里之间时，SFS的热防护效果最好。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Clothing and Textiles Research Journal Multiple-

CiteScore

5.30

自引率

5.30%

发文量

期刊介绍： Published quarterly, Clothing & Textiles Research Journal strives to strengthen the research base in clothing and textiles, facilitate scholarly interchange, demonstrate the interdisciplinary nature of the field, and inspire further research. CTRJ publishes articles in the following areas: •Textiles, fiber, and polymer science •Aesthetics and design •Consumer Theories and Behavior •Social and psychological aspects of dress or educational issues •Historic and cultural aspects of dress •International/retailing/merchandising management and industry analysis