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Cellulose
Published in: Cellulose 4/2014

01-08-2014 | Original Paper

Evaluation of a method for treatment of iron gall ink corrosion on paper

Authors: Jasna Malešič, Martin Šala, Vid Simon Šelih, Drago Kočar

Published in: Cellulose | Issue 4/2014

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Abstract

Iron gall ink was the most widely used writing ink for paper from the Middle Ages to the twentieth century. Unfortunately, the ink ingredients contain corrosive transition metal ions and acids that cause severe damage to the paper carrier. New or improved paper conservation methods for iron gall ink stabilization are constantly sought. The aim of the study was evaluation of a recently proposed stabilization treatment, adapted to lower relative humidity, applied to various model and historical paper samples containing iron gall ink. The effect of stabilization treatment on paper samples during artificial thermal aging was followed by the determination of the molecular weight distribution by size exclusion chromatography and colorimetry. Migration of iron and copper compounds from the ink lines was monitored by laser ablation inductively coupled plasma mass spectrometry. The results demonstrate that effective stabilization of iron gall ink-containing paper can be successfully achieved by interleaving with papers impregnated with the antioxidant tetrabutylammonium bromide and alkaline buffer under experimental conditions. Negative side effects of the stabilization treatment, such as migration of iron or copper ions from the ink lines and changes of color after the treatment and after accelerated thermal degradation, were limited, proving that the proposed stabilization treatment can be considered for future use by conservators.
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Literature
Baty JW, Maitland CL, Minter W, Hubbe MA, Jordan-Mowery SK (2010) Deacidification for the conservation and preservation of paper-based works: a review. Bio Res 5:1955–2023
Ekenstam A (1936) Behavior of cellulose in solutions of mineral acids. Part II: a Kinetic study of cellulose degradation in acid solutions. Ber 69:553–559CrossRef
Henniges U, Reibke R, Banik G, Huhsmann E, Hahner U, Prohaska T, Potthast A (2008) Iron gall ink-induced corrosion of cellulose: aging, degradation and stabilization. Part 2: application on historic sample material. Cellul 15:861–870CrossRef
Kanngießer B, Hahn O, Wilke M, Nekat B, Malzer W, Erko A (2004) Investigation of oxidation and migration processes of inorganic compounds in ink-corroded manuscripts. Spechim Acta Part B At Spectrosc 59:1511–1516CrossRef
Kolar J (1997) Mechanism of autoxidative degradation of cellulose. Restaurator 18:163–176CrossRef
Kolar J, Strlič M (2004) Evaluating the effects of treatments on iron gall ink corroded documents. Restaurator 25:94–103CrossRef
Kolar J, Strlič M (2006) Ageing and stabilisation of paper contatining iron gall ink. In: Kolar J, Strlič M (ed) Iron gall inks: on manufacture, characterisation, degradation and stabilisation. National and university library, Ljubljana, pp 181–194
Kolar J, Strlič M, Budnar M, Malešič J, Šelih VS, Simčič J (2003) Stabilisation of corrosive iron gall inks. Acta Chim Slov 50:763–770
Kolar J, Možir A, Balažic A, Strlič M, Ceres G, Conte V, Miruzzo V, Steemers T, de Bruin G (2008) New antioxidants for treatment of transition metal containing inks and pigments. Restaurator 29:184–198
Kolar J, Malešič J, Kočar D, Strlič M, de Bruin G, Koleša D (2012) Characterisation of paper containing iron gall ink using size exclusion chromatography. Polym Degrad Stab 97:2212–2216CrossRef
Malešič J, Strlič M, Kolar J, Polanc S (2005a) The influence of halide and pseudo-halide antioxidants in Fenton-like reaction systems containing copper(II) ions. J Mol Catal A: Chem 241:126–132CrossRef
Malešič J, Kolar J, Strlič M, Polanc S (2005b) The use of halides for stabilisation of iron gall ink containing paper: the pronounced effect of cation. E Preserv Sci 2:13–18
Malešič J, Kolar J, Strlič M, Polanc S (2006) The influence of halide and pseudo-halide antioxidants in Fenton-like reaction systems. Acta Chim Slov 53:450–456
Malešič J, Kočar D, Balažic A (2012) Stabilization of copper and iron containing papers in mildly alkaline environment. Polym Degrad Stab 97:118–123CrossRef
Neevel J (1995) Phytate: a potential conservation agent for treatment of ink corrosion caused by iron gall inks. Restaurator 16:143–160CrossRef
Neevel J (2006) The development of in situ methods for identification of iron gall inks. In: Kolar J, Strlič M (ed) Iron gall inks: on manufacture, characterisation, degradation and stabilisation. National and university library, Ljubljana, pp 147–173
Neevel JG, Mensch K (1999) The behaviour of iron ions and sulphuric acid during iron-gall ink corrosion. Preprints of the 12th triennial meeting of the ICOM committee for conservation, vol II. International Council of Museums, Lyon, pp 528–533
Page DH, Scallan MA, Middleton SR, Zou X (1995) Method for the deacidification of papers and books. Patent US (ed) Pulp and Paper Research Institute of Canada
Potthast A, Henniges U, Banik G (2008) Iron gall ink-induced corrosion of cellulose: aging, degradation and stabilization. Part 1: model paper studies. Cellulose 15:849–859CrossRef
Reissland B, van Gulik R, de la Chapelle A (2006) Non-aqueous prototype treatment agents for ink-corroded papers: evaluation of side effects. In: Kolar J, Strlič M (ed) Iron gall inks: on manufacture, characterisation, degradation and stabilisation. National and university library, Ljubljana, pp 215–246
Rouchon V, Durocher B, Pellizzi E, Stordiau-Pallot J (2009) The water sensitivity of iron gall ink and its risk assessment. Stud Conserv 54:236–254CrossRef
Rouchon V, Duranton M, Burgaud C, Pellizzi E, Lavédrine B, Janssens K, de Nolf W, Nuyts G, Vanmeert F, Hellemans K (2011a) Room-temperature study of iron gall ink impregnated paper degradation under various oxygen and humidity conditions: time-dependent monitoring by viscosity and X-ray absorption near-edge spectrometry measurements. Anal Chem 83:2589–2597CrossRef
Rouchon V, Pellizzi E, Duranton M, Vanmeert F, Janssens K (2011b) Combining Xanes, ICP-AES and SEM/EDS for the study of phytate chelating treatments used on iron gall ink damages manuscripts. J Anal Atom Spectrom 26:2434–2441CrossRef
Rouchon V, Duranton M, Belhadj O, Bastier-Deroches M, Duplat V, Walbert C, Vinther Hansen B (2013) The use of halide charged interleaves for treatment of iron gall ink damaged papers. Polym Degrade Stab 89:1339–1347CrossRef
Scholten S (1997) Proceedings European workshop on iron-gall ink corrosion. Instituut Collectie Nederland, Amsterdam, pp 9–12
Šelih VS, Strlič M, Kolar J, Pihlar B (2007) The role of transition metals in oxidative degradation of cellulose. Polym Degrad Stab 92:1476–1481CrossRef
Shahani CJ, Hengemihle FH (1986) In: Zeronian SH, Needles H (ed) Preservation of historic textile and paper materials. Advances in Chemistry Series, No. 212. American Chemical Society, Washington, pp 387–410
Stijnman A (2006) Iron gall inks in history: ingredients and production. In: Kolar J, Strlič M (ed) Iron gall inks: on manufacture, characterisation, degradation and stabilization. National and University Library, Ljubljana, pp. 25–68
Stol R, Pedersoli JL Jr, Poppe H, Kok WTh (2002) Application of size exclusion electrochromatography to the microanalytical determination of the molecular mass from objects of cultural and historical value. Anal Chem 74:2314–2320CrossRef
Strlič M, Kolar J (2005) Ageing and stabilisation of paper. National and university library, Ljubljana
Strlič M, Kolar J, Kočar D, Drnovšek T, Šelih VS, Susič R, Pihlar B (2004) What is the pH of alkaline paper? E Preserv Sci 1:35–47
Strlič M, Šelih VS, Kolar J (2006) Model studies of the catalytic role of transition metals. In: Kolar J, Strlič M (ed) Iron gall inks: on manufacture, characterisation, degradation and stabilisation. National and university library, Ljubljana, pp 173–181
Vinter Hansen B (2005) Improving ageing properties of paper with iron-gall ink by interleaving with papers impregnated with alkaline buffer and antioxidant. Restaurator 26:190–202
Williams JC, Fowler CS, Lyon MS, Merrill TL (1977) Metallic catalysts in the oxidative degradation of paper. In: William JC (ed) Preservation of paper and textiles of historic and artistic value. Advances in Chemistry Series, No. 164. American Chemical Society, Washington, pp 37–61
Wilson H, Chris Carr, Hacke M (2012) Production and validation of model iron-tannate dyed textiles for use as historic textile substitutes in stabilization treatment studies. Chem Cent J 6:44CrossRef
Zou X, Gurnagul N, Uesaka T, Bouchard J (1994) Accelerated aging of papers of pure cellulose: mechanism of cellulose degradation and paper embrittlement. Polym Degrad Stab 4:393–402CrossRef
Metadata
Title
Evaluation of a method for treatment of iron gall ink corrosion on paper
Authors
Jasna Malešič
Martin Šala
Vid Simon Šelih
Drago Kočar
Publication date
01-08-2014
Publisher
Springer Netherlands
Published in
Cellulose / Issue 4/2014
Print ISSN: 0969-0239
Electronic ISSN: 1572-882X
DOI
https://doi.org/10.1007/s10570-014-0311-6

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