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Autori principali: Bujok, Sonia, Pańczyk, Tomasz, Szutkowski, Kosma, Anioł, Dominika, Antropov, Sergii, Kruczała, Krzysztof, Bratasz, Łukasz
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2501.05090
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author Bujok, Sonia
Pańczyk, Tomasz
Szutkowski, Kosma
Anioł, Dominika
Antropov, Sergii
Kruczała, Krzysztof
Bratasz, Łukasz
author_facet Bujok, Sonia
Pańczyk, Tomasz
Szutkowski, Kosma
Anioł, Dominika
Antropov, Sergii
Kruczała, Krzysztof
Bratasz, Łukasz
contents To clean or not to clean? The solution to this dilemma is related to understanding the plasticiser migration which has a few practical implications for the state of museum artefacts made of plasticised poly(vinyl chloride) - PVC and objects stored in their vicinity. The consequences of this process encompass aesthetic changes due to the presence of exudates and dust deposition, an increase in air pollution and the development of mechanical stresses. Therefore, this paper discusses the plasticiser migration in PVC to provide evidence and support the development of recommendations and guidelines for conservators, collection managers and heritage scientists. Particularly, the investigation is focused on the migration of the ortho-phthalates representing the group of the most abundant plasticisers in PVC collections. The predominance of inner diffusion or surface emission (evaporation) determining the rate-limiting step of the overall migration process is considered a fundament for understanding the potential environmental and mechanical risk. According to this concept, general correlations for various ortho-phthalates are proposed depending on their molar mass with the support of molecular dynamics simulations and NMR diffusometry. The study reveals that for the majority of the PVC objects in collections, the risk of accelerated migration upon mild removal of surface plasticiser exudate is low. Thus, surface cleaning would allow for diminishing dust deposition and air pollution by phthalate-emitting objects in a museum environment. Bearing in mind simplicity and the need for fast decision-supporting solutions, the step-by-step protocol for non-destructive identification and quantification of plasticisers in objects made of or containing plasticised PVC, determination of the physical state of investigated artefacts and rate-limiting process of plasticiser migration is proposed.
format Preprint
id arxiv_https___arxiv_org_abs_2501_05090
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Migration of phthalate plasticisers in heritage objects made of poly(vinyl chloride): mechanical and environmental aspects
Bujok, Sonia
Pańczyk, Tomasz
Szutkowski, Kosma
Anioł, Dominika
Antropov, Sergii
Kruczała, Krzysztof
Bratasz, Łukasz
Materials Science
Chemical Physics
To clean or not to clean? The solution to this dilemma is related to understanding the plasticiser migration which has a few practical implications for the state of museum artefacts made of plasticised poly(vinyl chloride) - PVC and objects stored in their vicinity. The consequences of this process encompass aesthetic changes due to the presence of exudates and dust deposition, an increase in air pollution and the development of mechanical stresses. Therefore, this paper discusses the plasticiser migration in PVC to provide evidence and support the development of recommendations and guidelines for conservators, collection managers and heritage scientists. Particularly, the investigation is focused on the migration of the ortho-phthalates representing the group of the most abundant plasticisers in PVC collections. The predominance of inner diffusion or surface emission (evaporation) determining the rate-limiting step of the overall migration process is considered a fundament for understanding the potential environmental and mechanical risk. According to this concept, general correlations for various ortho-phthalates are proposed depending on their molar mass with the support of molecular dynamics simulations and NMR diffusometry. The study reveals that for the majority of the PVC objects in collections, the risk of accelerated migration upon mild removal of surface plasticiser exudate is low. Thus, surface cleaning would allow for diminishing dust deposition and air pollution by phthalate-emitting objects in a museum environment. Bearing in mind simplicity and the need for fast decision-supporting solutions, the step-by-step protocol for non-destructive identification and quantification of plasticisers in objects made of or containing plasticised PVC, determination of the physical state of investigated artefacts and rate-limiting process of plasticiser migration is proposed.
title Migration of phthalate plasticisers in heritage objects made of poly(vinyl chloride): mechanical and environmental aspects
topic Materials Science
Chemical Physics
url https://arxiv.org/abs/2501.05090