应用电化学方法评估公元前三千年古代铜砷文物的稳定性并研究其影响因素

IF 2.1 2区 地球科学 Q1 ANTHROPOLOGY Archaeological and Anthropological Sciences Pub Date : 2024-07-01 DOI:10.1007/s12520-024-02014-4
Hamidreza Bakhshandehfard, Vahid Pourzarghan, Mohammadamin Emami
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引用次数: 0

摘要

巴兹曼地区是伊朗东南部锡斯坦和俾路支斯坦省伊兰沙赫尔四个地区之一。本研究探讨了砷铜合金在氯化物环境中的劣化行为。采用电化学方法研究了一些实验室制造的铜砷试样与来自巴兹曼 Spidej 墓地的五种古砷合金的腐蚀速率。塔菲尔图(LSV)用于确定腐蚀速率、腐蚀电流密度,循环伏安法用于确定氧化条件。通过 LSV 方法获得的数据表明,不同浓度下的腐蚀速率是不同的。对该地区土壤溶液的 pH 值进行了电化学研究。循环伏安法数据结果表明,Spidej 的长期掩埋条件导致 pH 溶液中出现点状腐蚀。通过在 pH 值为 10.85 的 Spidej Bazman 土壤溶液中对人造合金和古代合金进行取样,研究了氯化物对这些合金腐蚀的影响。在砷青铜器中发现了四种腐蚀形态。为了测试腐蚀行为,采用了线性扫描伏安法(LSV)技术。使用线扫描伏安法进行的电化学测试表明,氯化物促进效率的提高导致砷元素从合金中迁移的速度加快。在 pH 值为 10.17 和 10.85 时,实验室制造的合金的最小腐蚀率与古代合金相似。不同比例的合金显示出不同的腐蚀速率。
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Application of electrochemical methods to assess the stability and investigation of factors influencing the ancient copper-arsenic artefacts from 3rd Millennium BC

The Bazman district constitutes one of the four regions of Iranshahr in the Sistan and Baluchistan province southeast of Iran. This study examines the behavior of arsenic copper alloy deterioration in chloride environments. Electrochemical methods were used to investigate the corrosion rate of some laboratory-made of Cu-As coupons versus five antique As-alloys from Spidej Cemetery in Bazman. Tafel plots (LSV) were used to determine corrosion rate, corrosion current density, and Cyclic voltammetry method for oxidation conditions. The data obtained by the (LSV) method show that the corrosion rate is variable in different concentrations. Electrochemical investigations were conducted on the pH of the soil solution in the area. The results of cyclic voltammetry data show the occurrence of pitting corrosion in the pH solution caused by the burial conditions of the Spidej over time. The behavior of chlorides on the corrosion of these alloys was investigated via soil solution sampling of Spidej Bazman at pH 10.85 with both manufactured and ancient alloys. Four types of corrosion morphology were identified in the arsenic bronze objects. To test corrosion behavior, the linear sweep voltammetry (LSV) technique was achieved. Electrochemical testing using line scan voltammetry demonstrated that the rise in chloride promotion efficiency led to greater migration of the arsenic element from the alloy. At pH 10.17 and 10.85, the minimum corrosion rate for laboratory-made alloys is similar to ancient alloys. Different percentages of the alloy showed different corrosion rates.

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来源期刊
Archaeological and Anthropological Sciences
Archaeological and Anthropological Sciences GEOSCIENCES, MULTIDISCIPLINARY-
CiteScore
4.80
自引率
18.20%
发文量
199
期刊介绍: Archaeological and Anthropological Sciences covers the full spectrum of natural scientific methods with an emphasis on the archaeological contexts and the questions being studied. It bridges the gap between archaeologists and natural scientists providing a forum to encourage the continued integration of scientific methodologies in archaeological research. Coverage in the journal includes: archaeology, geology/geophysical prospection, geoarchaeology, geochronology, palaeoanthropology, archaeozoology and archaeobotany, genetics and other biomolecules, material analysis and conservation science. The journal is endorsed by the German Society of Natural Scientific Archaeology and Archaeometry (GNAA), the Hellenic Society for Archaeometry (HSC), the Association of Italian Archaeometrists (AIAr) and the Society of Archaeological Sciences (SAS).
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