Atmospheric corrosion of copper exposed to different environments in the region of Valparaiso, Chile

Vera, Rosa; Araya, Raquel; Bagnara, Margarita; Díaz‐Gómez, Andrés; Ossandón, Sebastián

doi:10.1002/maco.201609139

Cited by 19 publications

(25 citation statements)

References 26 publications

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“…Considering the values from fitting the EIS spectrum, the exponent value close to 0.5 from the CPE in the inner layer, suggests that this CPE can be replaced with a Warburg impedance, related to the diffusion of copper ions within the inner oxide layer. The same EC although considering CPE 1 related to the patina response and CPE 2 with copper oxidation was used to study the response of bronze roman coins and natural copper patinas formed during 1–3 years in Chile in different environments, with different thickness and porosity depending on the location . This second interpretation of circuit elements is in a better accordance to the copper corrosion mechanism previously described.…”

Section: Understanding Eis In Cultural Heritagementioning

confidence: 81%

“…More recently, Vera et al. have studied copper corrosion in 0.1 M Na 2 SO 4 ; unexposed copper coupons spectra fitted the classical Randles circuit, without the diffusion element, as shown in Figure (c), whether as only numerical data without error estimation is presented, it is difficult to ascertain the quality of the fitting.…”

Section: Understanding Eis In Cultural Heritagementioning

confidence: 99%

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In Situ Electrochemical Impedance Spectroscopy Measurements and their Interpretation for the Diagnostic of Metallic Cultural Heritage: A Review

Barat

Cano

2018

ChemElectroChem

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Protecting metallic cultural heritage from corrosion is a major challenge for metal conservators. Electrochemical techniques offer a great potential for monitoring the conservation condition of this type of heritage, providing a powerful tool for designing conservation strategies. For this reason, the application of techniques such as electrochemical impedance spectroscopy (EIS) has aroused increasing interest in recent years, although some difficulties in application and interpretation of the results still keep it from being routine practice. This Review aims to picture the state-of-the-art of using electrochemical impedance spectroscopy (EIS) for the in situ monitoring of metallic cultural heritage, focusing on spectra interpretation and different approaches that have been proposed to perform field measurements since the 1990's. In the first part of the Review, different cell designs based on the use of liquid or solid electrolytes for in situ measurements are reviewed. In the second part, a few general equivalent circuits are proposed as a basis for interpreting results on different metal surfaces after discussing different models proposed in literature. This overview intends to summarize and clarify the key points in the use of EIS, and encourage the use of this and other electrochemical techniques in the field of conservation science, for a better preservation of our cultural heritage.

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Section: Understanding Eis In Cultural Heritagementioning

confidence: 81%

Section: Understanding Eis In Cultural Heritagementioning

confidence: 99%

In Situ Electrochemical Impedance Spectroscopy Measurements and their Interpretation for the Diagnostic of Metallic Cultural Heritage: A Review

Barat

Cano

2018

ChemElectroChem

View full text Add to dashboard Cite

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“…Finally, the response or output of the artificial neuron is given by: z i = ϕ(Σ j w ij x j + δ). ANNs are defined as a set of artificial neurons distributed in accordance with a determined topology …”

Section: Methodsmentioning

confidence: 99%

“…All the connections on the two‐layer network are in a forward direction. As long as the neurons on the hidden layer have radial and nonlinear transfer functions, the neurons on the output layer make linear combinations with the corresponding activation of neurons on the hidden layer …”

Section: Methodsmentioning

confidence: 99%

Tropical/non‐tropical marine environments impact on the behaviour of carbon steel and galvanised steel

Vera

Rincón

Bagnara

et al. 2017

Materials & Corrosion

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The aim of this study is to assess the main factors that affect the behaviour of carbon steel and galvanised steel in tropical and non‐tropical marine environments, identifying those factors that directly affect the behaviour. The results from the INNOVA (Chile) and MICAT/PATINA (Venezuela) projects will be used. These projects evaluated metals exposed to different marine environments using procedures outlined in ISO 9223/9226. The results show that temperature has no significant effect on the behaviour of the materials at the study sites in question (Venezuela being 10 °C warmer than Chile), independent of the tropical nature of the exposure environment, while it is precipitation (>600 mm) and chloride and SO2 content in the environment that mainly influence the behaviour of the carbon steel and the galvanised steel. In addition, an artificial neural network was generated to evaluate the corrosion rate of the studied metals, using meteoro‐chemical variables. The neural network for the carbon and galvanised steel was more precise for the exposure sites located in Chile.

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“…Research and evaluation of outdoor atmospheric corrosion in coastal tropical climate in Cuba and Latin America has been performed since the last century. Reports about atmospheric corrosion in Latin American countries have been found in the last years …”

Section: Introductionmentioning

confidence: 99%

Atmospheric corrosion study in a harbor located in a tropical island

Castañeda

Valdés

Corvo

2018

Materials & Corrosion

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Atmospheric corrosion level in tropical coastal zones is usually very significant.Corrosion control and preservation of infrastructure in these regions is very important to increase durability. Atmospheric corrosion of carbon steel, copper, galvanized steel, and aluminum was evaluated in a coastal industrial port zone located in a tropical island during 1 year. Samples were exposed at seven outdoor corrosion sites located at different distances from the sea. Main atmospheric pollutants, relative humidity, and air temperature were monitored during the exposure time. The existence of a combination between two of the most aggressive atmosphere types was determined (coastal-industrial and industrial-coastal). Changes in RH and temperature influenced 1462 |

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Atmospheric corrosion of copper exposed to different environments in the region of Valparaiso, Chile

Cited by 19 publications

References 26 publications

In Situ Electrochemical Impedance Spectroscopy Measurements and their Interpretation for the Diagnostic of Metallic Cultural Heritage: A Review

In Situ Electrochemical Impedance Spectroscopy Measurements and their Interpretation for the Diagnostic of Metallic Cultural Heritage: A Review

Tropical/non‐tropical marine environments impact on the behaviour of carbon steel and galvanised steel

Atmospheric corrosion study in a harbor located in a tropical island

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