The impact of volatile compounds released by paper on cellulose degradation in ambient hygrothermal conditions

Tétreault, Jean; Dupont, Anne-Laurence; Bégin, Paul; Paris, Sabrina

doi:10.1016/j.polymdegradstab.2013.05.017

Cited by 58 publications

(38 citation statements)

References 51 publications

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“…They were initially proposed by Evan et al [32] and have largely been used in the cellulose chemistry community for the cellulose/CED system. They lead to DP v values that are (i) experimentally consistent with M w values determined by size exclusion chromatography and (ii) proportional to average number of monomer per macromolecule (DP) with a proportionality factor that is relatively close to 1 [33]. Eq.…”

Section: Degree Of Polymerizationsupporting

confidence: 65%

Application of Arrhenius law to DP and zero-span tensile strength measurements taken on iron gall ink impregnated papers: relevance of artificial ageing protocols

et al. 2016

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Iron gall inks (IGI) were largely used for writing until the nineteenth century. Under certain circumstances, they provoke a substantial degradation of their cellulosic support. It was shown in a previous works that combination of oxygen and iron largely impacts cellulose chain breaking occurring in acidic conditions (pH 3-4). The present study aims to study the kinetic of this degradation. It assesses the validity of Arrhenius law between 20 and 90°C taking advantage of the fast depolymerization of IGI impregnated papers at room temperature and using two complementary tools: DP measurements and zero-span tensile strength. The first one is sensitive enough to measure degradation at its very beginning, while the second is more appropriate for advanced stage of degradation. Similar activation energies (97 ± 2 kJ mol -1 ) were found via DP and zero-span measurements, and reaction rates of IGI impregnated papers were 1-2 orders of magnitude above available data related to lignin-free acidic papers. These observations suggest a dominant hydrolytic mechanism that involves directly or indirectly oxygen and iron.

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Section: Degree Of Polymerizationsupporting

confidence: 65%

Application of Arrhenius law to DP and zero-span tensile strength measurements taken on iron gall ink impregnated papers: relevance of artificial ageing protocols

et al. 2016

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“…(Area and Cheradame 2011;Ding and Wang 2007;Forsskåhl 2000: Hotle et al 2008Kaminska et al 2001;Kato and Cameron 1999;Malešič et al 2005;Porck 2000;Rasch and Scribner 1933;Reilly et al 2001;Shahani et al 2001;Strlič et al 2011;Tétreault et al 2013;Zou et al 1996a;Calvini 2014) Since the process of natural aging is too slow, the aging of cellulose has to be accelerated by elevating the temperature to be able to then extrapolate the rate of cellulose scission to room temperature conditions. For this prediction, the rate of degradation at different temperatures is measured and an Arrhenius plot is constructed.…”

Section: Introductionmentioning

confidence: 99%

Deterioration of ancient cellulose paper, Hanji: evaluation of paper permanence

et al. 2014

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Hanji paper, the paper material traditionally used in Korea, is in the focus of the present aging and mechanistic study. As raw materials and historic recipes for paper making are still available for Hanji today, specimen resembling historical material at the point of production can be prepared. While from that starting point, historical material had taken the path of natural aging, newly prepared samples-prepared according to both historic and current recipes-were artificially aged, and both aging modes can be compared. For the first time, an in-depth chemical and mathematical analysis of the aging processes for Hanji is presented. The aging of Hanji paper, resulting in hydrolysis and oxidation processes, was addressed by means of selective fluorescene labeling of oxidized groups in combination with gel permeation chromatography, providing profiles of carbonyl and carboxyl groups relative to the molar mass distribution. Starting Hanji showed the highest molecular weight ([1,400 kDa) ever reported for paper. We have defined two critical parameters for comparison of the paper samples: half-life DP (the time until every chain is split once on average) and life expectancy (the time until an average DP of failure is reached and no further mechanical stress can be tolerated). The two values were determined to be approximately 500 and 4,000 years, respectively, for the Hanji samples, provided there is no UV radiation. The rate of cellulose chain scission under accelerated aging (80°C, RH 65 %), was about 600 times faster than under natural conditions. In addition, cellulose degradation of Hanji paper under accelerated aging condition was about 2-3 times slower than that of historical rag paper as those used in medieval Europe.

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“…Acetic acid and nitrogen dioxide were selected as the most harmful pollutants based on previous work by the authors (Menart et al 2011a(Menart et al , 2011b, and recent monitoring at the National Archives (UK) (Fenech et al 2010). Although formic acid has recently been proposed as a potential threat to paper (Tétreault et al 2013) it has not been selected for this study, as it is found in concentrations significantly lower compared to acetic acid (at least an order of magnitude) even in archival boxes.…”

Section: Methodsmentioning

confidence: 99%

Effects of NO2 and acetic acid on the stability of historic paper

2014

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This research investigates degradation of historic paper in polluted environments during longterm dark storage. In an innovative experiment, degradation rates at realistic pollution levels are compared with degradation rates in the absence of pollution, using a set of real historic papers. The most abundant pollutants in repositories in post-industrial environments are taken into account: acetic acid and nitrogen dioxide. Their action was assessed in terms of reduction of 'handling' (as defined by decrease in degree of polymerisation) and 'display' (as defined by discolouration) lifetimes. Extrapolations to room conditions enabled lifetime predictions in conditions that are comparable to a real archival or library repository environments while prediction uncertainties were analytically evaluated to assess the significance of conclusions. While 10 ppb of NO 2 does reduce the handling lifetime of almost all types of paper, their predicted lifetimes were still assessed to be several millennia, with the exception of acidic paper. Acetic acid at concentrations that are typical for archival and library repositories (\100 ppb) has significantly less effect than NO 2 while it does not affect display lifetimes. From a conservation management perspective, it needs to be addressed whether the predicted reductions in otherwise significant handling lifetimes are of real concern and whether air filtration in archival and library repositories is justified.

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The impact of volatile compounds released by paper on cellulose degradation in ambient hygrothermal conditions

Cited by 58 publications

References 51 publications

Application of Arrhenius law to DP and zero-span tensile strength measurements taken on iron gall ink impregnated papers: relevance of artificial ageing protocols

Application of Arrhenius law to DP and zero-span tensile strength measurements taken on iron gall ink impregnated papers: relevance of artificial ageing protocols

Deterioration of ancient cellulose paper, Hanji: evaluation of paper permanence

Effects of NO2 and acetic acid on the stability of historic paper

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