不同延时条件下基于激光诱导击穿光谱的烧结混合料定量检测

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维普

中文摘要：烧结混合料是烧结工艺中极为重要的一环，其成分检测的准确性直接影响烧结过程，激光诱导击穿光谱技术通过激光光谱分析烧结混合料中的元素成分和含量，实时性好，但定量检测效果相比于其他实验室方法仍有差距。研发了一套遥测激光诱导击穿光谱装置，并应用于烧结混合料成分检测，采用PLSR与PCA相结合的方法对烧结混合料中TFe，CaO，SiO2，MgO进行定量检测。通过对1。28µs和5µs不同延时的光谱数据计算发现，不同物质在不同探测延时条件下R2有着明显差异，对于SiO2和MgO这两种浓度相对较低的物质，采用较小的1。28µs探测延时，R2分别达到了0。937和0。985，而浓度相对较高的TFe，CaO则采用更大的5µs探测延时效果更好，较采用1。28µs延时，TFe定量结果的R2从0。903提高到0。987，CaO的R2也从0。816提高到0。980。针对不同物质采用不同探测延时的方法显著提高了检测准确性，简化了检测流程，对烧结工艺起到指导作用。

外文标题：Quantitative detection of sintered mixed materials using LIBS under different delay conditions

外文摘要：Sintered mixed materials are essential to the sintering process,and the precision of their compo-nent detection significantly influences outcomes. LIBS technology utilizes laser spectroscopy to analyze the elemental composition and concentration of these materials,offering real-time data. However,its quantita-tive detection capabilities still fall short compared to other laboratory methods. This study introduced a re-mote sensing LIBS device for detecting components in sintered mixed materials. By combining Partial Least Squares Regression (PLSR) and Principal Component Analysis (PCA),it quantitatively assessed TFe,CaO,SiO2,and MgO concentrations. Analysis of spectral data with delay times of 1.28 μs and 5 μs showed notable differences in R2 values for various substances. For low-concentration SiO2 and MgO,the 1.28 μs delay yielded R2 values of 0.937 and 0.985,respectively. Conversely,a 5 μs delay produced better results for higher concentrations,with TFe's R2 increasing from 0.903 to 0.987 and CaO's from 0.816 to 0.980. This approach enhanced detection accuracy by utilizing optimal delay times for different substances,streamlining the detection process and providing valuable insights for the sintering process.

外文关键词：

remote sensing observationlaser induced breakdown spectroscopy(LIBS)sintering mixpartial least squares regression(PLSR)time-delayed change

作者：

秦云鹏、隋明达、魏自浩、薛世龙、卢渊、田野、郭金家

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作者单位：

中国海洋大学信息科学与工程学部,山东青岛 266100

关键词：

遥感测量激光诱导击穿光谱烧结混合料偏最小二乘法延时变化

基金：

山东省崂山实验室专项国家重点研发计划山东省自然科学基金山东省自然科学基金国家自然科学基金

项目编号：

LSKJ2022036032023YFC2811700ZR2020MF123ZR2023YQ05912174359

出版年：

2024

DOI：

10.37188/OPE.20243213.2052

光学精密工程

中国科学院长春光学精密机械与物理研究所中国仪器仪表学会

光学精密工程

CSTPCD北大核心

影响因子：2.059

ISSN：1004-924X

年,卷(期)：2024.32(13)

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