智能城市2026,Vol.12Issue(1):129-134,6.DOI:10.19301/j.cnki.zncs.2026.01.026
可解释AI驱动的再生木纹石复合材料性能优化
Explainable AI-guided performance optimization of recycled wood-grain stone composites
摘要
Abstract
The design of recycled wood-grain stone(RWGS)composites is constrained by complex nonlinear interactions among composition,processing parameters,and performance.This study employs explainable artificial intelligence(XAI)to develop a high-fidelity predictive model based on a dataset of 150 formulations and 750 specimens,achieving an average accuracy of 95.3%.SHAP analysis quantifies the dominant role of binder content in flexural strength(32.5%contribution)and wood/stone mass ratio in density(45.7%contribution).The study reveals an inverted U-shaped relationship between hot-pressing temperature and flexural strength,identifying an optimal temperature window of 145~155℃,and uncovers a strong synergistic interaction between binder content and temperature(SHAP interaction value up to 3.5).A new formulation optimized based on these insights achieves an 18.8%improvement in flexural strength compared to traditional empirical designs.This work establishes an XAI-guided framework for material design,offering a novel paradigm for the efficient development of sustainable high-performance composites.关键词
复合材料/可解释人工智能/材料设计/工艺优化/主动学习Key words
composite materials/explainable AI/material design/process optimization/active learning分类
信息技术与安全科学引用本文复制引用
王宇鹏,李玲艳,李浩荣..可解释AI驱动的再生木纹石复合材料性能优化[J].智能城市,2026,12(1):129-134,6.基金项目
云南省教育厅科学研究基金项目(2024J1399) (2024J1399)
