IMPROVEMENT OF METHODS OF RESTORATION AND PRESERVATION OF WOODEN CONSTRUCTIONS WITH THE USE OF MODERN CHEMICAL AUXILIARY SUBSTANCES
Keywords:
Cultural Heritage, Protection, VASA, International experience, Investigations, Glyoxal
Abstract
The object of research is to search for the concrete methods & solutions for cultural heritage objects protection including international experience in this field. It was used and learnt the concrete “case” - conservation VASA vessel in Sweden. It is the only preserved ship dated 17th century. Method. Author has realized the range of investigations targeted for choosing the artificial method of wood aging and experiments with wood samples (pine, spruce) followed by the application of a chemical additive (glyoxal) – one of the most perspective material for wood preservation. Results. Finally, conclusions on the possibilities of applying the results obtained for the needs of unique wooden cultural heritage objects are presented.
References
1 R.M. Rowell, J. Barbour (Eds.), Archaeological wood: properties, chemistry, and preservation. American Chemical Society Advances in Chemistry Series 225, Washington, DC, 1980, 472 pp.
2 Thomas Nilssona, Roger Rowella. Historical wood – structure and properties // Journal of Cultural Heritage.2012. - Electronic text data. DOI:10.1016/j.culher.2012.03.016, free access (05.10.2020). – Title from screen.
3 R.M. Rowell, Handbook of wood chemistry and wood composites, Taylor and Francis, Boca Raton, FL, 2005, 487 pp.
4 Riggio, Mariapaola & D'Ayala, Dina & Parisi, Maria & Tardini, Chiara. (2017). Assessment of heritage timber structures: Review of standards, guidelines and procedures [Electronic resource] // Journal of Cultural Heritage. 2017. – Electronic text data. https://doi.org/31. 10.1016/j.culher.2017.11.007, free access (12.05.2020). – Title from screen
5 Федосенко, И. Г. Эффективность способов консервации древесины исторических памятников [Электронный ресурс] / И.Г.Федосенко // УДК 699.8 Белорусский государственный технический университет. – 2014. – Электрон. журн. – Режим доступа: https://elib.belstu.by/bitstream/123456789/20223/1/Fe dosenko_46-47.pdf, свободный (дата обращения : 13.05.2020). – Загл. с экрана
6 Peter Niemza, David Mannesb. Nondestructive testing of wood and wood-based materials// Journal of Cultural Heritage.2012. – Electronic text data. DOI: 10.1016/j.culher.2012.04.001. free access (05.10.2020). – Title from screen.
7 M. Yokoyama, J. Gril, M. Matsuo, H. Yano, J. Sugiyama, B. Clair, S. Kubodera, T. Mistutani, M. Sakamoto, H. Ozaki, M. Imamura, S. Kawai, Mechanical characteristics of aged Hinoki wood from Japanese historical buildings, C. R. Phys. 10 (2009) 601–611
8 W. Pitt, 33 Farbtafeln Parkett–Nadel-, Laub, Exotenhölzer vor und nach UVEinstrahlung, Holzmann Verlag, 2010.
9 André Jorissen. Structural interventions // Journal of Cultural Heritage.2012. - Electronic text data. http://dx.doi.org/10.1016/j.culher.2012.05.001. , free access (05.10.2020). – Title from screen.
10 Jana Gelbricha, Carsten Maib, Holger Militzb. Evaluation of bacterial wood degradation by Fourier Transform Infrared (FTIR) measurements // Journal of Cultural Heritage.2012. - Electronic text data. DOI:10.1016/j.culher.2012.03.003 13S, free access (05.10.2020). – Title from screen.
11 Martin Nordvig Mortensen, Helge Egsgaard b, Søren Hvilsted c, Yvonne Shashoua a, Jens Glastrup. Characterisation of the polyethylene glycol impregnation of the Swedish warship Vasa and one of the Danish Skuldelev Viking ships // Journal of Archaeological Science.2007. – Electronic text data. https://doi.org/10.1016/j.jas.2006.10.012, free access (05.10.2020). – Title from screen.
12 Hocker, Emma & Almkvist, Gunnar & Sahlstedt, Malin. The Vasa experience with polyethylene glycol: A conservator's perspective // Journal of Cultural Heritage. 2012. – Electronic text data. https://doi.org/13. S175–S182. 10.1016/j.culher.2012.01.017, free access (12.05.2020). – Title from screen.
13 Håfors, B. Procedures in selecting and evaluating the conservation liquid for the Vasa wooden material. Proceedings of the 7th ICOM-CC Working group on Wet Organic Archaeological Materials Conference [Text] / B. Håfors// Grenoble.-1998, 1999. - P. 87–94.
14 Российская Федерация. Законы. Об объектах культурного наследия (памятниках истории и культуры) народов Российской Федерации [Текст]: [Федеральный закон от 25.06.2002 N 73-ФЗ (ред. от 24.04.2020)] // СЗ РФ. – 2002. – № 26, ст. 2519
15 Vasa museet [Electronic resource]// – Electronic text data. – Mode of access: https://www.vasamuseet.se/besok, free access (10.02.2020). – Title from screen
16 Strömberg, A. Konservering av vattendränkt trä Regalskeppet Wasa [Text] / A. Strömberg //Statens Sjöhistoriska Museum meddelanden 7, Stockholm, 1959.
17 Никитин, М. К. Мельникова, Е. П. Химия в реставрации. Справочное пособие [Текст] / М.К. Никитин, Е.П. Мельникова. - Ленинград: 1990. - 304 с
18 Водянкина, О. В. Глиоксаль [Текст] : моногр. / О. В. Водянкина, Л. Н. Курина, Л. А. Петров. – Москва, 2007. – 247 с.
19 Группа компаний «Новохим» https://novochem.ru
20. Никулин, С. С. и др. Отходы и побочные продукты нефтехимических производств – сырье для органического синтеза [Текст] /С.С. Никулин – Москва: Химия, 1989. – 240 с.
21 Стородубцева, Т. Н, Аксомитный, А А, Никулин, С.С., Губин, А.А. Защитная обработка древесины глиоксалем [Текст] // Лесотехнический журнал. - 2017. -№2 (26). – С. 148–154.
22 Furniture Industry Research Association [Electronic resource] //– Electronic text data. – Mode of access : www.fira.co.uk, free access (13.05.2020). – Title from screen.
23 Кафедра композиционных материалов и строительной экологии высшей инженерной школы САФУ https://narfu.ru/hseng/struktura-ikontakty/kafedry/kkmise/
2 Thomas Nilssona, Roger Rowella. Historical wood – structure and properties // Journal of Cultural Heritage.2012. - Electronic text data. DOI:10.1016/j.culher.2012.03.016, free access (05.10.2020). – Title from screen.
3 R.M. Rowell, Handbook of wood chemistry and wood composites, Taylor and Francis, Boca Raton, FL, 2005, 487 pp.
4 Riggio, Mariapaola & D'Ayala, Dina & Parisi, Maria & Tardini, Chiara. (2017). Assessment of heritage timber structures: Review of standards, guidelines and procedures [Electronic resource] // Journal of Cultural Heritage. 2017. – Electronic text data. https://doi.org/31. 10.1016/j.culher.2017.11.007, free access (12.05.2020). – Title from screen
5 Федосенко, И. Г. Эффективность способов консервации древесины исторических памятников [Электронный ресурс] / И.Г.Федосенко // УДК 699.8 Белорусский государственный технический университет. – 2014. – Электрон. журн. – Режим доступа: https://elib.belstu.by/bitstream/123456789/20223/1/Fe dosenko_46-47.pdf, свободный (дата обращения : 13.05.2020). – Загл. с экрана
6 Peter Niemza, David Mannesb. Nondestructive testing of wood and wood-based materials// Journal of Cultural Heritage.2012. – Electronic text data. DOI: 10.1016/j.culher.2012.04.001. free access (05.10.2020). – Title from screen.
7 M. Yokoyama, J. Gril, M. Matsuo, H. Yano, J. Sugiyama, B. Clair, S. Kubodera, T. Mistutani, M. Sakamoto, H. Ozaki, M. Imamura, S. Kawai, Mechanical characteristics of aged Hinoki wood from Japanese historical buildings, C. R. Phys. 10 (2009) 601–611
8 W. Pitt, 33 Farbtafeln Parkett–Nadel-, Laub, Exotenhölzer vor und nach UVEinstrahlung, Holzmann Verlag, 2010.
9 André Jorissen. Structural interventions // Journal of Cultural Heritage.2012. - Electronic text data. http://dx.doi.org/10.1016/j.culher.2012.05.001. , free access (05.10.2020). – Title from screen.
10 Jana Gelbricha, Carsten Maib, Holger Militzb. Evaluation of bacterial wood degradation by Fourier Transform Infrared (FTIR) measurements // Journal of Cultural Heritage.2012. - Electronic text data. DOI:10.1016/j.culher.2012.03.003 13S, free access (05.10.2020). – Title from screen.
11 Martin Nordvig Mortensen, Helge Egsgaard b, Søren Hvilsted c, Yvonne Shashoua a, Jens Glastrup. Characterisation of the polyethylene glycol impregnation of the Swedish warship Vasa and one of the Danish Skuldelev Viking ships // Journal of Archaeological Science.2007. – Electronic text data. https://doi.org/10.1016/j.jas.2006.10.012, free access (05.10.2020). – Title from screen.
12 Hocker, Emma & Almkvist, Gunnar & Sahlstedt, Malin. The Vasa experience with polyethylene glycol: A conservator's perspective // Journal of Cultural Heritage. 2012. – Electronic text data. https://doi.org/13. S175–S182. 10.1016/j.culher.2012.01.017, free access (12.05.2020). – Title from screen.
13 Håfors, B. Procedures in selecting and evaluating the conservation liquid for the Vasa wooden material. Proceedings of the 7th ICOM-CC Working group on Wet Organic Archaeological Materials Conference [Text] / B. Håfors// Grenoble.-1998, 1999. - P. 87–94.
14 Российская Федерация. Законы. Об объектах культурного наследия (памятниках истории и культуры) народов Российской Федерации [Текст]: [Федеральный закон от 25.06.2002 N 73-ФЗ (ред. от 24.04.2020)] // СЗ РФ. – 2002. – № 26, ст. 2519
15 Vasa museet [Electronic resource]// – Electronic text data. – Mode of access: https://www.vasamuseet.se/besok, free access (10.02.2020). – Title from screen
16 Strömberg, A. Konservering av vattendränkt trä Regalskeppet Wasa [Text] / A. Strömberg //Statens Sjöhistoriska Museum meddelanden 7, Stockholm, 1959.
17 Никитин, М. К. Мельникова, Е. П. Химия в реставрации. Справочное пособие [Текст] / М.К. Никитин, Е.П. Мельникова. - Ленинград: 1990. - 304 с
18 Водянкина, О. В. Глиоксаль [Текст] : моногр. / О. В. Водянкина, Л. Н. Курина, Л. А. Петров. – Москва, 2007. – 247 с.
19 Группа компаний «Новохим» https://novochem.ru
20. Никулин, С. С. и др. Отходы и побочные продукты нефтехимических производств – сырье для органического синтеза [Текст] /С.С. Никулин – Москва: Химия, 1989. – 240 с.
21 Стородубцева, Т. Н, Аксомитный, А А, Никулин, С.С., Губин, А.А. Защитная обработка древесины глиоксалем [Текст] // Лесотехнический журнал. - 2017. -№2 (26). – С. 148–154.
22 Furniture Industry Research Association [Electronic resource] //– Electronic text data. – Mode of access : www.fira.co.uk, free access (13.05.2020). – Title from screen.
23 Кафедра композиционных материалов и строительной экологии высшей инженерной школы САФУ https://narfu.ru/hseng/struktura-ikontakty/kafedry/kkmise/
Published
2021-04-15
How to Cite
Popkov, S., and S. Popkova. 2021. “IMPROVEMENT OF METHODS OF RESTORATION AND PRESERVATION OF WOODEN CONSTRUCTIONS WITH THE USE OF MODERN CHEMICAL AUXILIARY SUBSTANCES ”. EurasianUnionScientists 7 (3(84), 7-23. https://doi.org/10.31618/ESU.2413-9335.2021.7.84.1307.
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