The effect of particulate matter on paper degradation

Grau-Bové, Josep; Budič, Bojan; Cigić, Irena Kralj; Thickett, David; Signorello, S; Strlič, Matija

doi:10.1186/s40494-016-0071-8

Cited by 22 publications

(13 citation statements)

References 21 publications

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“…The effect of pollutants on historic paper deterioration is generally negligible [16]. However, dust particles and particulate matter may increase paper vulnerability to deterioration [17,18].…”

Section: Introductionmentioning

confidence: 99%

Conservation risks for paper collections induced by the microclimate in the repository of the Alessandrina Library in Rome (Italy)

Verticchio

Frasca

Cavalieri³

et al. 2022

Herit Sci

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The Alessandrina Library was founded in 1667 by pope Alexander VII Chigi and is nowadays housed in the Campus of Sapienza University of Rome (Italy). Within its Ancient (mostly made of rag paper) and Modern (mostly made of contemporary paper) collections, it includes more than one million books produced from the XVI to the XXI century. In 2019, six thermo-hygrometers were deployed in its multi-storey repository to monitor temperature (T) and relative humidity (RH). Hourly T and RH data collected over 2 years allowed us to evaluate spatial and temporal thermo-hygrometric distributions and to carry out a comprehensive assessment of the climate-induced risks (mechanical, chemical, and biological deterioration mechanisms). Vertical temperature gradients associated with unstable conditions occurred in winter, resulting in upraising air flows up to the ceiling. The risky short-term RH fluctuations (EN 15757:2010) were determined to avoid mechanical stress in case of loans, relocation, and consultation. The Time Weighted Expected Lifetime (TWEL) index was used to evaluate the chemical risk for different paper-based collections as a function of their acidity and degree of polymerisation, also considering the typical response time of paper books to T and RH changes. The TWEL calculation estimated that the durability of acidic paper was around 300 years and highlighted that rag paper could be subject to cellulose hydrolysis only in summer and autumn, while contemporary paper was mostly at no risk. The risk of mould germination (Sedlbauer diagram) was possible on few days in Autumn, while the production of insect eggs (Brimblecombe empirical function) was favoured during approximately 42% of time over the year. In addition, illuminance and colorimetric measurements (performed on selected book covers) showed that light-sensitive objects could be exposed to the photodeterioration risk in the east-facing side of the repository. Although the investigation focussed on a specific case study, a similar approach could be effectively adapted to most library and archival repositories conserving paper-based collections.

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Section: Introductionmentioning

confidence: 99%

Conservation risks for paper collections induced by the microclimate in the repository of the Alessandrina Library in Rome (Italy)

Verticchio

Frasca

Cavalieri³

et al. 2022

Herit Sci

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“…However, it is important to consider that other variables can also limit the cleaning effect of acrylic works. One of these is the particulate matter (PM), which is a risk for painted surfaces both because its deteriorating effect changes according to the art material (being composed of a mixture of solid and liquid particles suspended in the air), and because its accumulation on surfaces can alter the morphology of the material and compromise the cleaning operations favoring surface abrasion [21]. Another factor that can affect both degradation processes and cleaning practices is the growth of microorganisms-including algae, fungi, bacteria and even lichen-on painted surfaces [22].…”

Section: Introductionmentioning

confidence: 99%

The Effect of Pollutant Gases on Surfactant Migration in Acrylic Emulsion Films: A Comparative Study and Preliminary Evaluation of Surface Cleaning

et al. 2021

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From their first employment in the 1950s, acrylic emulsions have remained widely used as art material today. Although under certain deteriorating conditions they are very stable, if exposed to high humidity and atmospheric pollutant gases, their structural and chemical conformation is strongly affected. Dealing with the resulting surfactant migration, various cleaning treatments were considered over the years. However, their choice remains difficult as they easily alter the acrylic component, especially if in contact with aqueous solutions. The present study focuses on investigating the stability of acrylic emulsion films exposed to accelerated aging by various pollutant gases. Firstly, a comparative analytical study was carried out in order to morphologically (by 3D optical and Atomic Force Microscopy) and chemically (by Raman and Infrared spectroscopy) characterize the reactions and degradation products. Subsequently, two water-based cleaning treatments were tested, and a preliminary evaluation of their cleaning effectiveness was performed. The results show that the reaction of atmospheric gas pollutants with water molecules in moisture leads to acidic reaction products that attack the acrylic matrix and favor the migration of the surfactant to the surface. The effectiveness of cleaning treatments depends on the aging conditions applied, which further lead to different surface morphological changes.

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“…NO x and O 3 in humid environments enhance the SO 2 uptake (Johansson and Lennholm, 2000;, catalyzing thus the hydrolysis reactions. Additionally, acidic or alkaline particulate matter (PM) favors the discoloration processes through deposition (Grau-Bové et al, 2016).…”

Section: Introductionmentioning

confidence: 99%

Indoor Air Quality Assessment at the Library of the National Observatory of Athens, Greece

Drougka

Liakakou

Σακκά

et al. 2020

Aerosol Air Qual. Res.

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Indoor environmental factors, such as microclimatic conditions (viz., the temperature and relative humidity) and pollutant concentrations, crucially affect the exhibits and artworks in a museum. To evaluate the air quality inside the library hosted by the Museum of Geoastrophysics of the National Observatory of Athens, a monitoring campaign was performed during summertime (August 2016). The findings were compared against scientifically accepted standards and recommended conditions for repositories and paperwork exhibition areas. The temperature and the relative humidity proved to be the most critical threats to the book collection, with the measured temperatures exceeding the recommended limits. Both parameters also displayed diurnal fluctuations, which are not recommended. Synergistically, these uncontrolled conditions contribute to book deterioration on a long-term basis, resulting in color and mechanical damage to the fibers and the growth of mold. Furthermore, despite only moderate infiltration, the library exhibited unacceptably high levels of pollutants, such as SO2, NO 2 and O 3 , which also cause the embrittlement and discoloration of paper as well as a weakening or powdering of leather book covers.

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The effect of particulate matter on paper degradation

Cited by 22 publications

References 21 publications

Conservation risks for paper collections induced by the microclimate in the repository of the Alessandrina Library in Rome (Italy)

Conservation risks for paper collections induced by the microclimate in the repository of the Alessandrina Library in Rome (Italy)

The Effect of Pollutant Gases on Surfactant Migration in Acrylic Emulsion Films: A Comparative Study and Preliminary Evaluation of Surface Cleaning

Indoor Air Quality Assessment at the Library of the National Observatory of Athens, Greece

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