RESTORATION AND CONSERVATION OF A UNIQUE ARCHAEOLOGICAL CARPET FROM PRINCE MUHAMMAD CALI PALACE MUSEUM IN AL-MANIAL, CAIRO (CASE STUDY) | ||||
| Journal of the General Union of Arab Archaeologists | ||||
| Article 11, Volume 7, Issue 1, January 2022, Page 198-218 PDF (3.08 MB) | ||||
| Document Type: Original Article | ||||
| DOI: 10.21608/jguaa2.2021.81464.1066 | ||||
 View on SCiNiTO | ||||
| Authors | ||||
Mariam Samy   1; Gamal Mahgoub 2; Eman Osman3; Neven Fahim 4
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| 1Conservation Department, Fayoum University, Egypt | ||||
| 2؛Professor at Conservation Department, faculty of Archaeology, Fayoum University, Egypt | ||||
| 3Chemical Metrology Department, National Institute for Standards, Egypt | ||||
| 4Conservation Department, Faculty of archaeology,Fayoum University, Egypt | ||||
| Abstract | ||||
| [Ar] ترميم وصيانة سجادة آثرية فريدة من متحف قصر الأمير محمد على بالمنيل – القاهرة (دراسة حالة) يمثل السجاد التاريخى أحد أكثر الكنوز الفنية التى يجب الحفاظ عليها للأجيال القادمة. لذلك تقدم هذه الورقة البحثية استراتيجيات علمية لصيانة سجادة آثرية فريدة حُفِظت فى ظروف تخزين غير متحكم فيها. السجادة غنية بالزخارف وتعود إلى العصر الحديث (القرن 13هـ/ 19م). وكانت مُخزنة فى متحف قصر الأمير محمد على بالمنيل (القاهرة) تحت رقم 90/112سجل 2. ونظرا للتلف الشديد الذى كانت تعانى منه هذه السجادة كان لابد من وضع خطة علاج مناسبة لترميمها بشكل صحيح وذلك باستخدام التقنيات الميكروسكوبية والطيفية. فقد تم استخدام التحليل الطيفى بالأشعة تحت الحمراء [FTIR] لتحديد أنواع الأصباغ، فى حين تم استخدام حيود الأشعة السينية [XRD] لتحديد المرسخات. كما تم استخدام المجهر البصرى والمجهر الإلكترونى الماسح [SEM] لتحديد نوع الألياف وحالتها وشكلها المورفولوجى. واستخدم برنامج الأوتوكاد [AutoCAD] لتوثيق السجادة بالكامل بما تحمله من زخارف ومظاهر تلف. وقد أكدت النتائج أن الخيوط المستخدمة فى السجادة هى ألياف صوفية، الألياف تعانى من جفاف شديد وتقصف وهشاشية، أيضا احتواء الألياف على شقوق عرضية وترسيبات سميكة على السطح. علاوة على ذلك، تم العثور على أصباغ الفوة، النيلة الزرقاء، والبليحة. وكانت المرسخات المستخدمة هى الشبة، ثانى كرومات البوتاسيوم، وكبريتات الحديدوز. وكان عامل التلف الأتربة بجانب العوامل الفيزيائية الأخرى. وتم معالجة السجادة الآثرية بإزالة أعمال الترميم القديمة الخاطئة، ترطيب الألياف، محاولات للتنظيف الجاف، الغسيل، التجفيف، التقوية عن طريق التثبيت على حامل كتاني جديد تم شده على إطار خشبى (وفقاً لمتطلبات السلامة)، وأخيراً التعقيم بالفضة النانوية. [En] Historical carpets represent one of the most artistic treasures, which ought to be saved for the next generations. Therefore, this paper presents scientific strategies to conserve a unique archaeological carpet, which was kept under uncontrolled storage conditions. The carpet is highly decorated and dates back to the modern era, 13th AH/19th AD. It was stored in Prince Muhammad Ali Palace Museum in El-Manial (Cairo) under Nrº.90/112 Record 2. As this carpet suffered from severe damage, an appropriate plan had to be drawn up to restore it properly using microscopic and spectroscopic techniques. Fourier Transform Infra-Red (FTIR) spectroscopy was used to identify the kinds of dyes, while X-ray diffraction (XRD) was used to identify mordants. Optical microscope and Scanning Electron Microscopy (SEM) were used to identify the type of fibers, their condition, and surface morphology. The AutoCAD program was used to document the whole carpet with all its decorations and aspects of damage. The obtained results confirmed that the threads used in the carpet are wool fibers; the fibers suffer from severe dehydration, brittleness, and fragility; also, the fibers have cross-slits and thick deposits on the surface. Moreover, the presence of Madder, Indigo, and weld dyes were found. The mordants used were alum, potassium dichromate, and ferrous sulfate. The deterioration factor was dust alongside the other physical factors. The treatment of the archaeological carpet was performed by removing old erroneous restoration works, moisturizing fibers, attempts to dry cleaning, washing, drying, consolidating by fixing on a new linen fabric supporter which was stretched on a wooden frame (according to the safety requirements), and finally sterilizing by nano-silver. | ||||
Highlights | ||||
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| Keywords | ||||
| Oriental rugs; carpets; SEM; FTIR; XRD; restoration; conservation | ||||
| References | ||||
|
cAbdel-Kareem, O.: «Conservation and Restoration of a Rare Large Persian Carpet», E-conservationthe Online Magazine 17, 2010, 53-63.
cAbdel-Kareem, O.: «History of Dyes Used in Different Historical Periods of Egypt», RJTA 16/4, 2012, 79-92.
Abo El Enen, E.: «Preservation and Restoration of a Piece of Textile at the Egyptian Textile Museum», EJARS 3/1, 2013, 29 – 37.
Abo El Enen, E.: «Technical Investigation and Conservation of a Tapestry Textile from the Egyptian Textile Museum, Cairo», Scientific Culture 4/3, 2018, 35-46.
Abo El Enen,E.: «Conservation of A Gauze Textile From the Tulunid Period in Egyptian Textile Museum, Cairo», International Journal Of Conservation Science 9/1, 2018, 13-24.
Ackles, S.F. Symbols and their Meanings in the Carpets and Prayer Rugs of the Turkish-Armenian and Persian traditions, 1988.
Ahmed, H.: «Identification and Conservation of a Rare Islamic Textile Decorated with Metallic Yarns», EJARS 3/1, 2013, 39 – 45.
Ahmed, H. & Ziddan Y.: «A New Approach for Conservation Treatment of a Silk Textile in Islamic Art Museum, Cairo» Journal of Cultural Heritage 12, 2011, 412–419.
Allane, L., Kilims: A Buyer’s Guide, Hong Kong (Thames & Hudson) 1995, 9.
Amin, E.: «Preservation and Restoration of a Piece of Textile at the Egyptian Textile Museum», EJARS 3/1, 2013, 29 – 37.
Amin, E.: «The Documentation and Treatment of a Coptic Child's Tunic in Egypt», EJARS 9/1, 2019, 1-11.
Barani, H. & Calvimontes, A.: «Effects of Oxygen Plasma Treatment on the Physical and Chemical Properties of Wool Fiber Surface», Plasma Chemistry and Plasma Processing, 2014, New York
Canamares, M. V., Garcia-Ramos J. V., Domingo C. & Sanchez-Cortes S.:«Surface Enhanced Raman Scattering Study of the Adsorption of the Anthraquinone Pigment Alizarin on Ag Nanoparticles», Journal Of Raman Spectroscopy 35, 2004, 921–927.
Chen, C., Zhao W., Liu W., Zhang Y., Tang H., Xu D. & Zheng, C.: «Research of Dyeing Thermodynamics and Supramolecular Structure of Luteolin on Wool Fabric», World Journal of Engineering and Technology 5, 2017, 19-28.
Coletti, F., Romani, M., Ceres, G., Zammit, U. & CestelliGuidi, M.: «Evaluation of Microscopy Techniques and ATR-FTIR Spectroscopy on Textile Fibers from the Vesuvian area: A Pilot Study on Degradation Processes that Prevent the Characterization of bast Vibers», Journal of Archaeological Science: Reports 36, 2021, 1-11.
Degano, I., Biesaga, M., Colombini, M.P. & Trojanowicz, M.: «Historical and Archaeological Textiles: an Insight on Degradation Products of Wool and Silk Yarns», Journal of Chromatography A, 1218, 2011, 5837– 5847.
Derrick, M.R., Stulik D.C. & Landry J.M.: Infrared Spectroscopy in Conservation Science, Los Angeles, 1999, 197-200.
Ding, L. & et Al.: «Non-invasive Study of Natural Dyes in Textiles of the Qing Dynasty Using Fiber Optic Reflectance Spectroscopy», Journal of Cultural Heritage 47, 2021, 69–78.
Dipaola, S., Dalvandi, A. & Behbahani P.A.: «Exploring Persian Rug Design Using a Computational Evolutionary Approach», Conference: Electronic Visualisation and the Arts (EVA), 2010, 121-128.
Djordjević, D. & Urošević, S.: «Textile protection through conservation and restoration», ZastitaMaterijala 58 /1, 2017, 94–99.
Dyer, J.M., Bringans, S. & Bryson, W.G.: «Characterization of Photo-oxidation Products within Photo yellowed Wool Proteins: Tryptophan and Tyrosine Derived Chromophores», Photochemical and Photobiological Sciences 5/7, 2006, 698-706.
Ford, P.R.J.: Oriental carpet design, London (Thames & Hudson (1989, 16.
Ghazizadeh,P.: «Persian Rugs: Analysis of Selected Designs», Ma Thesis, Faculty of the Graduate College/Oklahoma State University, 1979.
Griffin, G.: The practical book of oriental rugs, 2nd (ed.), Philadelphia – London, (J.B. Lippincott Company( 1913, 89.
Hafiz Foundation: Jazz from paradise: Miri Creation Contemporary Carpet Masterpieces from The Farjam Collection, Dubai (Hafiz Foundation) 2012, 12.
Kamal, N. & Mansour M.: «Conservation and Restoration of Archaeological Textile at Coptic Museum, Cairo», IJTRD, Proceedings of International Conference on Arts, Science & Technology, 20-22 December 2017, Dubai, 93-96.
El-Ghareb, K.: « Microstructure and Damage Assessment of Some Ptolemaic Pottery Objects at Tell Abu Yasin in Sharkia, Egypt: Case Study», JGUAA2, 6/1, 2021, 154-174.
Křížová, H.: Natural Dyes: their Past, Present, Future and Sustainability, in Textile Dyeing-Theory and Applications, 1st ed., 2013, 317-334.
Lee, J., Ceglia A., Kim K. J. & Lee, Y.: «Characterization of Dyed Textiles Using TOF-SIMS and FT-IR», Surface and Interface Analysis 44/6, 2011, 653–657.
Nafesa, E., El-shamy & Othman, M.: «Analytical Study of the Archaeological Leather Document Preserved In Egyptian Museum And New Proposal For Museum Exhibition», JGUAA2 6 /1, 2021, 136- 153.
National Park Service (NPS), Appendix K.: Curatorial Care of Textile Objects, Museum Handbook, Part I, (NPS Museum) 2002.
Nilsson, J.: «Evaluation of Stitched Support Methods for the Remedial Conservation of Historical Silk Costumes», E-conservation Journal, 2015, 1-20.
Oriental Rug Knotting & Construction. Pdf. downloaded from: http://www.kapridjianrugsandcarpets. com/knotting.pdf, (Accessed on March 3, 2021).
OSMAN, E. ZIDAN Y. & KAMAL, N.: «Using The Microscopic and Spectroscopic Techniques to Identify and Characterize Archeological Artifacts», IJCS 5/4, 2014, 459-468.
Peets, P., Leito I., Pelt J. & Vahur, S.: «Identification and Classification of Textile Fibers Using ATR-FT-IR Spectroscopy with Chemometric Methods», Spectrochimica Acta Part A Molecular and Biomolecular Spectroscopy 173, 2017, 175–181.
Peets, P., Va & et Al.: «Instrumental Techniques in the Analysis of Natural Red Textile Dyes», Journal of Cultural Heritage 42, 2020, 19–27.
Pietrzak, K. et Al.: «Antimicrobial Properties of Silver Nanoparticles Against Biofilm Formation by Pseudomonas Aeruginosa on Archaeological Textiles», Applied Environmental Biotechnology 1/2, 2016, 1-9.
Pînzaru, S.C., Pop D. & Nemeth, L.: «FT-Raman and FT-Infrared Investigations of Archaeological Artifacts from Foeni Neolithic Site (Banat, Romania)», Studia UBBGeologia 53 /1, 2008, 31 – 37.
Raditoiu, V. & et Al.: «Application of Fourier Transform Infrared Spectroscopy (FTIR) for the Study of Cultural Heritage Artifacts», VR Technologies in Cultural Heritage VRTCH, 2018, 3-9.
Sakhai, E.: Oriental carpets: A buyer's guide, London (Moyer Bell Ltd) 1995.
Schön, M.: «The Mechanical and Supporting Effect of Stitches in Textile Conservation», (Graduating Thesis, BA/Sc), University Of Gothenburg, 2017.
Schweppe, H.: Practical Hints on Dyeing with Natural Dyes: Production of comparative Dyeings for the Identification of Dyes on Historic Textile Materials, Washington, Smithsonian Institution, 1986, 5.
Serrano, A. & et Al.: «A Non-invasive Imaging Approach for Improved Assessments on the Construction and the Condition of Historical knotted-pile carpets», Journal of Cultural Heritage 47, 2021, 79–88.
Shahid, M. & et Al.: «Analytical Methods for Determination of Anthraquinone Dyes in Historical Textiles: A Review», Analytica Chimica Acta 1083, 2019, 58-87.
Singh, P., Sharma, E. & Fatima, N.: «A Descriptive Survey Study on Conservation of Textile Artifacts in the Selected Museums of Uttar Pradesh», Journal of Critical Reviews, 7/8, 2020, 1799-1811.
Tertsch, L. & Zib D.: «Natural Dyeing – Fabric Dyeing with Madder», Comenius project-biology, 2014, 3. Pdf downloaded from:https://www.academia.edu/24482692/Natural_Dyeing_Fabric dyeingwith_ Madder, (Accessed June 4, 2021).
The Maiwa Guide to Natural Dyes, Maiwa Handprints Ltd.Pdf. downloaded from: Http://www.box19.ca/ maiwa/pdf/Guide_To_Natural_Dyes.pdf , (Accessed June 4, 2021). | ||||
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