Efficiency and durability of protective treatments on cultural heritage copper corrosion layers

被引：11

作者：

Apchain, Emilande ^{[1
,2
]}

Neff, Delphine ^{[1
]}

Gallien, Jean-Paul ^{[1
]}

Nuns, Nicolas ^{[3
]}

Berger, Pascal ^{[4
]}

Noumowe, Albert ^{[2
]}

Dillmann, Philippe ^{[1
]}

机构：

[1] Univ Paris Saclay, CEA Saclay, LAPA IRAMAT, NIMBE,CEA,CNRS, Gif Sur Yvette, France

[2] Univ Cergy Pontoise, L2MGC, 5 Mail Gay Lussac, F-95031 Neuville Sur Oise, France

[3] Univ Artois, Univ Lille, IMEC Inst Michel Eugene Chevreul, CNRS,INRA,Cent Lille,ENSCL,FR 2638, F-59000 Lille, France

[4] Univ Paris Saclay, CEA Saclay, CNRS, LEEL,NIMBE,CEA, Gif Sur Yvette, France

来源：

CORROSION SCIENCE | 2021年 / 183卷

关键词：

Copper; Copper alloys; Atmospheric corrosion; Protective treatments; Microcrystalline wax; Decanoate solution;

D O I：

10.1016/j.corsci.2021.109319

中图分类号：

T [工业技术];

学科分类号：

08 ;

摘要：

To protect copper artefacts of the cultural heritage from atmospheric degradation protective treatment must be applied. Two types of protective treatments: microcrystalline wax (Cosmollo?d wax) and decanoate solution (HC10) were tested. Two aspects were considered: the penetration of the treatments in the corrosion layers, and its durability. Equivalent efficiencies for both treatments were demonstrated. The penetration of the treatments seems to depend essentially on its application mode. Re-corrosion experiments of treated samples under immersion in D2O demonstrate that the efficiency and the durability with time or after water leaching depend on the penetration of the treatments in the corrosion layers.

引用

页数：12

共 50 条

[1] Lidar remote sensing of stony cultural heritage: Detection of protective treatments
Ballerini, G
Bracci, S
Pantani, L
Tirelli, D
Tiano, P
REMOTE SENSING FOR EARTH SCIENCE, OCEAN, AND SEA ICE APPLICATIONS, 1999, 3868 : 332 - 338
[2] Lidar remote sensing of stone cultural heritage: detection of protective treatments
Ballerini, G
Bracci, S
Pantani, L
Tiano, P
OPTICAL ENGINEERING, 2001, 40 (08) : 1579 - 1583
[3] In situ evaluation by colour spectrophotometry of cleaning and protective treatments in granitic Cultural Heritage
Pozo-Antonio, J. S.
Montojo, C.
Lopez de Silanes, M. E.
de Rosario, I.
Rivas, T.
INTERNATIONAL BIODETERIORATION & BIODEGRADATION, 2017, 123 : 251 - 261
[4] An analysis on the corrosion of a cultural heritage
Bozdogan, Omer
Yaman, Aydan
Yilmaz, Haci Murat
INTERNATIONAL JOURNAL OF ENGINEERING AND GEOSCIENCES, 2022, 7 (02): : 112 - 127
[5] Durability of Biodegradable Polymers for the Conservation of Cultural Heritage
Mistretta, Maria C.
La Mantia, Francesco P.
Titone, Vincenzo
Megna, Bartolomeo
Botta, Luigi
Morreale, Marco
FRONTIERS IN MATERIALS, 2019, 6
[6] SURFACE-ANALYSIS OF PROTECTIVE LAYERS OF PITTING CORROSION (TYPE-I) AT COPPER
FROMMEYER, G
WERKSTOFFE UND KORROSION-MATERIALS AND CORROSION, 1980, 31 (02): : 114 - 118
[7] Guidelines for energy efficiency in the cultural heritage
Battisti, Alessandra
TECHNE-JOURNAL OF TECHNOLOGY FOR ARCHITECTURE AND ENVIRONMENT, 2016, 12 : 65 - 73
[8] Guidelines on energy efficiency of cultural heritage
de Santoli, Livio
ENERGY AND BUILDINGS, 2015, 86 : 534 - 540
[9] Corrosion and conservation of cultural heritage metallic artefacts
Zubielewicz, Malgorzata
OCHRONA PRZED KOROZJA, 2014, 57 (01): : 29 - 30
[10] Durability of calcarenitic hypogea in the underground cultural heritage of Palermo (Sicily)
Zimbardo, M.
Ercoli, L.
Nocilla, N.
GEOTECHNICAL ASPECTS OF UNDERGROUND CONSTRUCTION IN SOFT GROUND, 7TH INTERNATIONAL SYMPOSIUM, 2012, : 799 - 806

← 1 2 3 4 5 →