Effect of Surface Condition on the Results of Chemical Composition Measurements of Scrap Copper Alloys

IF 4.6 Q2 GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY Recycling Pub Date : 2024-02-04 DOI:10.3390/recycling9010014
Łukasz Bernat, Tomasz Jurtsch, Grzegorz Moryson, Jan Moryson, Grzegorz Wiczyński
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Abstract

The processing of copper-bearing scrap makes it possible to reduce the costs and energy consumption of obtaining copper alloy products compared to producing them from primary raw materials. To achieve this, it is necessary to quickly and accurately determine the content of alloying elements in individual scrap elements. However, the copper-bearing scrap obtained at secondary raw materials collection points consists of elements with various surface conditions (due to contamination, shape, paint coatings, roughness, etc.). The paper contains research results on the influence of surface roughness and paint coatings on the measurement result of the content of alloying elements in copper-bearing scrap. Three mobile spectrometers were used for measurements: spark-induced optical emission spectroscopy (OES), X-ray fluorescence spectrometry (XRF) and laser-induced breakdown spectroscopy (LIBS). The tests used elements with different surface roughness (from Ra = 0.03 μm to 6.7 μm) and covered with various types of varnish (alkyd, water-based, oil-phthalic, acrylic, oil-alkyd). It was found that the roughness of Ra < 2 μm does not significantly affect the results of the measurements with the OES and LIBS spectrometers, and a larger scatter of measurement results was observed for the XRF spectrometer compared to OES and LIBS. For Ra > 2 μm, a significant impact of roughness was found on the measurement results (this may result in the erroneous classification of the scrap as an incorrect material group). The influence of paint coatings on the measurement is much stronger compared to surface roughness. Even a single layer of paint can cause a change in the measurement result of the content of alloying elements by more than 10%. In the case of an OES spectrometer, paint coatings may prevent the measurement from being performed (which means that no measurement result can be acquired).
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表面条件对废铜合金化学成分测量结果的影响
与使用初级原材料生产铜合金产品相比,对含铜废料进行加工可以降低获得铜合金产品的成本和能耗。要做到这一点,就必须快速准确地确定各个废料中合金元素的含量。然而,在二次原料收集点获得的含铜废料由各种表面状况(由于污染、形状、油漆涂层、粗糙度等)的元素组成。本文研究了表面粗糙度和油漆涂层对含铜废料中合金元素含量测量结果的影响。测量使用了三种移动光谱仪:火花诱导光学发射光谱(OES)、X 射线荧光光谱(XRF)和激光诱导击穿光谱(LIBS)。测试使用了不同表面粗糙度(从 Ra = 0.03 μm 到 6.7 μm)的元素,并覆盖了不同类型的清漆(醇酸树脂、水基、油邻苯二甲酸、丙烯酸、油醇酸树脂)。研究发现,Ra < 2 μm 的粗糙度对 OES 和 LIBS 光谱仪的测量结果影响不大,与 OES 和 LIBS 相比,XRF 光谱仪的测量结果散差较大。在 Ra > 2 μm 的情况下,粗糙度对测量结果的影响很大(这可能导致废料被错误地归类为错误的材料组)。与表面粗糙度相比,油漆涂层对测量的影响要大得多。即使是一层油漆也会导致合金元素含量的测量结果发生 10% 以上的变化。对于 OES 光谱仪,油漆涂层可能会导致无法进行测量(这意味着无法获得测量结果)。
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
Recycling
Recycling Environmental Science-Management, Monitoring, Policy and Law
CiteScore
6.80
自引率
7.00%
发文量
84
审稿时长
11 weeks
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