Identification of Materials and Pigments Used in Mural Painting of Rahim Abad Historic Garden & Mansion in Birjand - Journal of Research on Archaeometry
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year 2, Issue 2 (2017)                   JRA 2017, 2(2): 63-76 | Back to browse issues page


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Abbasi J, Bahadori R, Bozorgmehr M A, Beheshti S I, Bahrololoumi F. Identification of Materials and Pigments Used in Mural Painting of Rahim Abad Historic Garden & Mansion in Birjand. JRA 2017; 2 (2) :63-76
URL: http://jra-tabriziau.ir/article-1-63-en.html
1- Tehran University of Art , javad_abbasi1991@yahoo.com
2- Cultural Heritage, Handicrafts and Tourism Organization of Iran
Abstract:   (7585 Views)

This paper presents the results of the Identifying the binder and pigments used in the mural paintings in RahimAbad Historic Garden and Mansion in Birjand. Birjand was one of the most important governmental strategic cities in Qajar era (1789–1925A.D) and an important branch area of ancient Silk Road which connected India to Europe. Though many monuments, especially historical gardens remained in Birjand. RahimAbad Historic Garden and Mansion was the resident of Qaenat ruler to consider politics, businesses and accommodating foreign guests. The most important part in the Architectural decoration of RahimAbad Historic Garden and Mansion is mirror-encrusted decorations, stucco and mural paintings. Due to diversity in building decorations and multiplicity of constructing periods in RahimAbad Historic Garden and Mansion, identification of pigments used in mural paintings is a great evidential assistance in extracting chronological information. scanning electron microscopy in combination with energy dispersive X-ray microanalysis (SEM-EDX)، Fourier transform infrared spectroscopy (FTIR), Polarized light microscopy (PLM), X-ray diffraction (XRD) and handheld X-Ray Florescence (micro-XRF) were used for the characterization of the compound and structure of the paint layers of samples taken from mural paintings. AccordThis paper presents the results of the identification of the binder and pigments used in the mural paintings in Rahim Abad Historic Garden and Mansion in Birjand. Birjand was one of the most important governmental strategic cities in Qajar era (1789–1925 A.D.), and an important branch area of ancient Silk Road, which connected India to Europe. Many monuments, especially historical gardens have been remained in Birjand. Rahim Abad Historic Garden and Mansion is one of this gardens, which in the period of Amir Ismail Khan Shaukat Molk, was the location of Qaenat ruler to consider politics, businesses and accommodating foreign guests. The most important part in the Architectural decoration of Rahim Abad Historic Garden and Mansion is mirror-encrusted decorations, stucco and wall paintings. Due to diversity in building decorations and multiplicity of constructing periods in Rahim Abad Historic Garden and Mansion, identification of pigments and materials used in wall paintings is of a great evidential assistance in extracting chronological information. Wall painting is one of the Iran arts that based on the signs of old paint can be pursued to pre-history. One of the most important issues in the study of historical paintings, especially wall painting, is the identification of the nature of paintings used to decorate the walls. Pigments identification is also important not only from the perspective of archeology, but also in terms of the history of art and knowledge of degradation processes and the development of monument conservation strategies is also important. Scanning electron microscopy in combination with energy dispersive X-ray microanalysis (SEM-EDX) ،Fourier transform infrared spectroscopy (FTIR), Polarized light microscopy (PLM), X-ray diffraction (XRD) and handheld X-Ray Florescence spectroscopy (micro-XRF) were used for the characterization of the compound and structure of the paint layers of samples taken from mural paintings. In fact, chemical and physical analysis, provides useful information from spectrum of pigments in a region and recognizing color preparation techniques and its application. Also before proceeding restoration, the accurate information from the chemical composition of materials used in object is required. According to the obtained results, mixture of gypsum and calcite as a substrate layer, red lead (Pb3O4), mixture of malachite (CuCO3.Cu(OH)2) and Prussian blue)Fe4(Fe[CN]6)3), ultramarine (Na8-10Al6Si6O24S2-4), and mixture of two metals, copper and zinc, as the pigments were used. Also, an adhesive like animal glue was that of common materials in Qajar period, as well as used to substrate color. Such pigments are further evidence that the mural painting of this monument are from the late Qajar. Oil was used as binder or varnish in this painting and there is in all of the samples. One of the interesting points of the materials used in the paintings was the application of a mixture of pigments to create colors with different tonalities. Another point is the use of imported pigments such as Prussian blue, along with other traditional pigments that were common in of that era. Also, the microscopic examination of golden color indicates the presence of chalcopyrite in this pigment. These compounds exist due to the corrosion of copper metal in golden color, and usually appears in golden colors obtained from two metals alloy, such as copper and zinc, by creating green color in a golden background.ing to the obtained results,mixture of gypsum and calcite as a preparatory layer, red lead (Pb3O4), mixture of malachite (CuCO3.Cu(OH)2) and Prussian blue ) Fe4(Fe[CN]6)3), ultramarine (Na8-10Al6Si6O24S2-4), and mixture of two metals, copper and zinc, as pigments were used. Also, an adhesive like animal glue was that of common materials in Qajar period, as well as used to substrate color. Such pigments are further evidence that the Mural Painting of this Monument are from the late Qajar. Oil was used as binder or varnish in this painting and there is in all of colors.

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Technical Note: Original Research | Subject: Archaeometry
Received: 2016/10/19 | Accepted: 2017/01/18 | Published: 2017/03/17 | ePublished: 2017/03/17

References
1. Abbasi, Z. (2012). Technological Study of easel painting of the Qajar period (1794-1925) to provide protection scheme. Master Thesis. Art University of Tehran. [in Persian]
2. Ahmadi, H. Abed Esfahani, A., Mortazavi, M., Mousavi, S.M.J. (2015). Recognizing of Golden Counterfeit Beaded on Historical Manuscripts, Study of Process of Destruction the Golden Pigments and Support Sheet, Journal of Maremat & Memari-e Iran, 4(7), 77-88. [in Persian]
3. Ahmadi, S., Shokouhi, F., Oliaiy, P., Lamehi-Rachti, M., & Rahighi, J. (2005). Characterisation of the Wall Painting Pigments of Baghcheh Joogh Castle by PIXE. International Journal of PIXE, 15(03n04), 345-350. [DOI:10.1142/S0129083505000714]
4. Alizadeh, S. (2012). Investigation and Technological Development in the First Period Qajar Painting Art, Journal of Negare, Volume 7(22), 73-84. [in Persian]
5. Aloupi, E., Karydas, A. G., & Paradellis, T. (2000). Pigment analysis of wall paintings and ceramics from Greece and Cyprus. The optimum use of X-ray spectrometry on specific archaeological issues. X-ray Spectrometry, 29(1), 18-24. https://doi.org/10.1002/(SICI)1097-4539(200001/02)29:1<18::AID-XRS397>3.0.CO;2-5 [DOI:10.1002/(SICI)1097-4539(200001/02)29:13.0.CO;2-5]
6. Ayati, A. (2012). Memories of Birjand and Political Events, Tehran: Bahjat Publication, Second Edition. [in Persian]
7. Ayati, M. H. (1992). Baharestan, Mashhad: Ferdoesi University Press, Second Edition. [in Persian]
8. Azhand, y. (2006). Qajar era wall painting, visual arts journal, No. 25. [in Persian]
9. Bahadori, R, Ahmadi, S. H. (2002). Analysis and identification of pigments and materials used in wall paintings, letter Cultural Heritage Research Institute, No. 1, p. 99. [in Persian]
10. Bahadori, R, Ahmadi, S. H. (2012). Scientific Examination of two Iranian Historical Paintings on Wood, Poster presented at the 2nd International Congress Chemistry for Cultural Heritage, Istanbul, Turkey.
11. Bahadori, R, Bahrololoomi, F. (2013). Archaeometrys investigations of pigments used in paint and mosaic works of the third millennium BC in Iran, Proceedings of the First National Conference on Archaeology of Iran, Birjand, Birjand University of Arts, 1-15. [in Persian]
12. Bahadori, R, Bahrololoomi, F. (2015). Scientific study of paintings on wood in the house Birjandi. R. Bahadur, & S. Amin Shirazi (eds.), ninth Conference on conservation and restoration of historical monuments and architectural decoration, 1388, Surrey, Tehran: Center for conservation and restoration of, 60 -65. [in Persian]
13. Bahrololoumi, F. Bahadori, R. (2011). Real Gold or Pseudo Gold, Study golden decorations and writings on sheets left by a few manuscripts of the Quran (Safavid to Qajar), Name Baharestan, 12(18-19): 157- 168.
14. Batter, M. (2010). Structural analysis of pigments wall paintings of Parthian era in the Khajeh Mountain in Sistan, Journal of Crystallography and Mineralogy of Iran, No. 3: 323-334.
15. Bicchieri, M., Nardone, M., Russo, P. A., Sodo, A., Corsi, M., Cristoforetti, G., ... & Tognoni, E. (2001). Characterization of azurite and lazurite based pigments by laser induced breakdown spectroscopy and micro-Raman spectroscopy. Spectrochimica Acta Part B: Atomic Spectroscopy, 56(6), 915-922. [DOI:10.1016/S0584-8547(01)00228-2]
16. Bruder, R., Detalle, V., & Coupry, C. (2007). An example of the complementarity of laser‐induced breakdown spectroscopy and Raman microscopy for wall painting pigments analysis. Journal of Raman spectroscopy, 38(7), 909-915. [DOI:10.1002/jrs.1685]
17. Canby, S. R. (1993). Persian Painting. British Museum Press.
18. Clark, R. J. (2002). Pigment identification by spectroscopic means: an arts/science interface. Comptes Rendus Chimie, 5(1), 7-20. [DOI:10.1016/S1631-0748(02)01341-3]
19. Darwish, S. S. (2013). Scientific Investigation of the Materials and Techniques Used In a 19th Century Egyptian Cemetery Wall Painting (Hawsh Al-Basha). International Journal of Conservation Science, 4(2).
20. Diba, L. S. (1989). Persian Painting in the eighteenth century: tradition and transmission. Muqarnas, 6, 147-160. [DOI:10.2307/1602287]
21. Eastaugh, N. (2008). Pigment compendium: a dictionary and optical microscopy of historical pigments. Routledge.
22. Floor, W. (1999). Art (Naqqashi) and Artists (Naqqashan) in Qajar Persia. Muqarnas, 16, 125-154. [DOI:10.2307/1523268]
23. Franquelo, M. L., Duran, A., Herrera, L. K., de Haro, M. J., & Perez-Rodriguez, J. L. (2009). Comparison between micro-Raman and micro-FTIR spectroscopy techniques for the characterization of pigments from Southern Spain Cultural Heritage. Journal of Molecular structure, 924, 404-412. [DOI:10.1016/j.molstruc.2008.11.041]
24. Ghavami, F. (2013). Technological Colorful Paintings in the East Room Shah Neshin Train Layout In The House of Hagigi in Esfahan. (Unpublished master\'s thesis). Restoration of cultural and historical objects. Art University of Tehran. [in Persian]
25. Gray, B. (1979). The Tradition of Wall Painting in Iran. Highlights of Persian Art, 313-29.
26. Harandi, D. Taheri, M. H. Sardari, A. Z. (2016). Identification of Pigments of Tal-e Mash Karim Wall Painting at the Chalcolithic Site of Iran, Journal of Color Science and Technology, 9: 187-197. [in Persian]
27. Harley, R. D. (1970). Artists\' pigments, c. 1600-1835; a study in English documentary sources.
28. Irazola, M., Olivares, M., Castro, K., Maguregui, M., Martínez‐Arkarazo, I., & Madariaga, J. M. (2012). In situ Raman spectroscopy analysis combined with Raman and SEM‐EDS imaging to assess the conservation state of 16th century wall paintings. Journal of Raman Spectroscopy, 43(11), 1676-1684. [DOI:10.1002/jrs.4036]
29. Ismailian, F. (2013). Technology of monochromatic wall paintings Shah Neshin house bakhradi in Isfahan. (Unpublished master\'s thesis). Restoration of cultural and historical objects, Art University of Tehran.
30. Josa, V. G., Bertolino, S. R., Laguens, A., Riveros, J. A., & Castellano, G. (2010). X-ray and scanning electron microscopy archaeometric studies of pigments from the Aguada culture, Argentina. Microchemical Journal, 96(2), 259-268. [DOI:10.1016/j.microc.2010.03.010]
31. Mazzocchin, G. A., Agnoli, F., Mazzocchin, S., & Colpo, I. (2003). Analysis of pigments from Roman wall paintings found in Vicenza. Talanta, 61(4), 565-572. [DOI:10.1016/S0039-9140(03)00323-0]
32. Mcbride, C. (2002). Pigment Particle & Fiber Atlas for Paper Conservators. Getty Trust Postgraduate Fello.
33. Mojtahed-Zadeh, P. (2004). The Small Players of the Great Game: The Settlement of Iran\'s Eastern Borderlands and the Creation of Afghanistan. Routledge.
34. Mozaffari, A., Bahadory, R., Bahreman, A. R. (2010). Restoration and laboratory investigations Vitrai paintings Rashvand Qazvin house, Journal of Assar, 51: 74-82.
35. Porter, E. (2014). Traditions and techniques of painting and illustration. (Z. Rajabi, trans.). Tehran: publication of the Academy of Arts, 87-97. [in Persian]
36. Riederer, J., Schweppe, H., Winter, J., Feller, R. L., Johnston-Feller, R. M., Berrie, B. H., ... & Laver, M. (1997). Artists\' pigments: a handbook of their history and characteristics, v. 3.
37. Vandenabeele, P., Bodé, S., Alonso, A., & Moens, L. (2005). Raman spectroscopic analysis of the Maya wall paintings in Ek\'Balam, Mexico. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 61(10), 2349-2356. [DOI:10.1016/j.saa.2005.02.034]
38. Vatandoost, R, Beheshti, S.M, Nayeri, P. (2013). A Review on the Foundations of Traditional Wall Paintings Restored in Iran, Journal of Bag nazar, No: 27.
39. Vatandoost, R., Bahadory, R. (1998). Identification of Compounds Used in a Wall Painting by Using Fourier-Transform Infrared Spectroscopy, Proceedings of the Conservation of Historical-Cultural Center. Tehran, 98-101.
40. Yate, C. E. (1900). Khurasan and Sistan. W. Blackwood.
41. Zeng, Q. G., Zhang, G. X., Leung, C. W., & Zuo, J. (2010). Studies of wall painting fragments from Kaiping Diaolou by SEM/EDX, micro Raman and FT-IR spectroscopy. Microchemical Journal, 96(2), 330-336. [DOI:10.1016/j.microc.2010.05.013]

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