Machine learning based approach for automatic defect detection and classification in adhesive joints

IF 4.1 2区 材料科学 Q1 MATERIALS SCIENCE, CHARACTERIZATION & TESTING
Damira Smagulova , Vykintas Samaitis , Elena Jasiuniene
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引用次数: 0

Abstract

This study presents an automated technique combining ultrasonic pulse echo method with machine learning algorithms to detect and classify the depth of interface defects in adhesively bonded joints. After data preprocessing for machine learning and extracting 32 ultrasonic features, the binary and ternary datasets were established for “defect”-“no defect” and its depth classifications. The importance and classification accuracy of various feature subsets—initial, single interface, minimised, tree-based, recursive, sequential, and LDA—were explored. A support vector machine (SVM) model was trained on these datasets. For “defect” vs. “no defect” classification, the initial feature subset achieved over 90 % accuracy on train/test data and 83 % on unseen data. For the ternary dataset, depth classification accuracy on unseen data in recursive feature subset was 97 % for “depth 1,” 62 % for “depth 2,” and 91 % for “depth 3.” The obtained results demonstrate prediction accuracy and suitability of ML models for classifying defects and predicting their depths in adhesive bonds.

基于机器学习的粘接接头缺陷自动检测和分类方法
本研究提出了一种结合超声脉冲回波法和机器学习算法的自动化技术,用于检测和分类粘合剂粘接接头的界面缺陷深度。在对数据进行机器学习预处理并提取 32 个超声波特征后,建立了二元和三元数据集,用于 "缺陷"-"无缺陷 "及其深度分类。研究了各种特征子集的重要性和分类准确性,包括初始特征子集、单界面特征子集、最小化特征子集、树状特征子集、递归特征子集、序列特征子集和 LDA 特征子集。在这些数据集上训练了支持向量机(SVM)模型。对于 "缺陷 "与 "无缺陷 "分类,初始特征子集在训练/测试数据上的准确率超过 90%,在未见数据上的准确率为 83%。对于三元数据集,递归特征子集在未见数据上的深度分类准确率为:"深度 1"97%,"深度 2"62%,"深度 3"91%。这些结果证明了 ML 模型在粘合剂缺陷分类和缺陷深度预测方面的预测准确性和适用性。
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来源期刊
Ndt & E International
Ndt & E International 工程技术-材料科学:表征与测试
CiteScore
7.20
自引率
9.50%
发文量
121
审稿时长
55 days
期刊介绍: NDT&E international publishes peer-reviewed results of original research and development in all categories of the fields of nondestructive testing and evaluation including ultrasonics, electromagnetics, radiography, optical and thermal methods. In addition to traditional NDE topics, the emerging technology area of inspection of civil structures and materials is also emphasized. The journal publishes original papers on research and development of new inspection techniques and methods, as well as on novel and innovative applications of established methods. Papers on NDE sensors and their applications both for inspection and process control, as well as papers describing novel NDE systems for structural health monitoring and their performance in industrial settings are also considered. Other regular features include international news, new equipment and a calendar of forthcoming worldwide meetings. This journal is listed in Current Contents.
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