人工智能和比色法相结合的无损检测方法预测热处理木材的性能

IF 1.3 4区农林科学 Q2 MATERIALS SCIENCE, PAPER & WOOD

Cellulose Chemistry and Technology Pub Date : 2022-11-29 DOI:10.35812/cellulosechemtechnol.2022.56.84

A. J. V. Zanuncio, Emanuel Arnoni Costa, A. G. Carvalho, V. R. de Castro, Angélica DE CASSIA OLIVEIRA CARNEIRO, Solange de Oliveira Araújo

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引用次数: 1

摘要

比色法评价实用、准确、快速。从热处理会改变木材性能这一公认事实出发，本文旨在利用比色法和人工神经网络预测热处理木材的性能。对巨桉和加勒比松木材样品进行了热处理，以评估其颜色以及物理和机械性能。通过多层感知器（MLP）神经网络评价木材颜色与其物理力学性能的关系。热处理使木材变暗，增加了其尺寸稳定性，降低了其机械阻力。基于色度和温度参数的人工神经网络能够有效地模拟木材的性质，并能更好地预测其物理参数。模型的决定系数（R2）较高，均方根误差（RMSE%）较低——具有均匀分布。研究结果表明，比色法作为一种无损工具，足以评估热处理木材。

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ARTIFICIAL INTELLIGENCE AND COLORIMETRY AS A COMBINED NON-DESTRUCTIVE METHOD TO PREDICT PROPERTIES OF HEAT-TREATED WOOD

Colorimetric evaluation is practical, accurate and fast. Starting from the generally established fact that a heat treatment changes the wood properties, the present paper aimed to predict the properties of heat-treated wood by using colorimetry and artificial neural networks (ANNs). Eucalyptus grandis and Pinus caribaea wood samples were heat-treated to evaluate their color, as well as physical and mechanical properties. The relationship between the wood color and its physical and mechanical properties was evaluated through multilayer perceptron (MLP) neural network. The heat treatment darkened the wood, increased its dimensional stability and reduced its mechanical resistance. Artificial neural networks based on colorimetric and temperature parameters were efficient in modeling the wood properties, with better results to predict its physical parameters. The coefficient of determination (R2) of the models was high and the root mean squared error (RMSE%) low – with homogeneous distribution. The findings suggest that colorimetry is adequate as a non-destructive tool to evaluate heat-treated wood.

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来源期刊

Cellulose Chemistry and Technology 工程技术-材料科学：纸与木材

CiteScore

2.30

自引率

23.10%

发文量

审稿时长

7.3 months

期刊介绍： Cellulose Chemistry and Technology covers the study and exploitation of the industrial applications of carbohydrate polymers in areas such as food, textiles, paper, wood, adhesives, pharmaceuticals, oil field applications and industrial chemistry. Topics include: • studies of structure and properties • biological and industrial development • analytical methods • chemical and microbiological modifications • interactions with other materials