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Parchment is [[hygroscopy|hygroscopic.]] As such, environmental conditions such as [[relative humidity|humidity]] must be kept under control. Pigments add another layer to the problem, forcing a preservationist to fit environmental conditions to two different (and possibly conflicting) sets of ideal limits.<ref>Clarkson, Christopher. “Rediscovering Parchment: The Nature of the Beast.” ''The Paper Conservator'' 16, 1992: 5-7.</ref>
Parchment is [[hygroscopy|hygroscopic.]] As such, environmental conditions such as [[relative humidity|humidity]] must be kept under control. Pigments add another layer to the problem, forcing a preservationist to fit environmental conditions to two different (and possibly conflicting) sets of ideal limits.<ref>Clarkson, Christopher. “Rediscovering Parchment: The Nature of the Beast.” ''The Paper Conservator'' 16, 1992: 5-7.</ref>


Problems can occur when parchment is exposed to high [[relative humidity|humidity]] for a long period of time. For example, [[collagen]] in the pages could dissolve and stick together.<ref>Mowery, J. Franklin. [http://aic.stanford.edu/sg/bpg/annual/v10/bp10-12.html “The Conservation of a Thirteenth Century Armenian Manuscript.”] [http://aic.stanford.edu/sg/bpg/annual/ ‘’The Book and Paper Group ANNUAL’’] [http://aic.stanford.edu/sg/bpg/annual/v10/ 10, 1991.]</ref>
Problems can occur when parchment is exposed to high humidity for a long period of time. For example, [[collagen]] in the pages could dissolve and stick together.<ref>Mowery, J. Franklin. [http://aic.stanford.edu/sg/bpg/annual/v10/bp10-12.html “The Conservation of a Thirteenth Century Armenian Manuscript.”] [http://aic.stanford.edu/sg/bpg/annual/ ‘’The Book and Paper Group ANNUAL’’] [http://aic.stanford.edu/sg/bpg/annual/v10/ 10, 1991.]</ref>


These problems are further compounded by the fact that pigments do not dye parchment; instead, they lie on the surface of the parchment and so are rather fragile. Pressing an illuminated manuscript pushes the pigment down, altering the image itself and likely causing damage (such as a relief effect to the other side of the page) so it is very important to not put any pressure upon images on parchment, especially when it is wet.<ref>Cains, Anthony. “The Vellum of the Book of Kells.” ‘’The Paper Conservator” 16, 1992: 50-66.</ref> This fact also has to be taken into account when cleaning dirt from the image and when [[encapsulating]] or framing illuminated parchment for an exhibition. There must be enough room between the image and the protective surface (such as [[Perspex]]) that the image will not be subject to rubbing if the parchment should expand with rising humidity.<ref>Pickwoad, Nicholas. “Alternative Methods of Mounting Parchment for Framing and Exhibition.” ''The Paper Conservator'' 16, 1992:78-85.</ref>
These problems are further compounded by the fact that pigments do not dye parchment; instead, they lie on the surface of the parchment and so are rather fragile. Pressing an illuminated manuscript pushes the pigment down, altering the image itself and likely causing damage (such as a relief effect to the other side of the page) so it is very important to not put any pressure upon images on parchment, especially when it is wet.<ref>Cains, Anthony. “The Vellum of the Book of Kells.” ‘’The Paper Conservator” 16, 1992: 50-66.</ref> This fact also has to be taken into account when cleaning dirt from the image and when encapsulating or framing illuminated parchment for an exhibition. There must be enough room between the image and the protective surface (such as [[Perspex]]) that the image will not be subject to rubbing if the parchment should expand with rising humidity.<ref>Pickwoad, Nicholas. “Alternative Methods of Mounting Parchment for Framing and Exhibition.” ''The Paper Conservator'' 16, 1992:78-85.</ref>


==Methods of Repair==
==Methods of Repair==
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Soluble [[nylon]] was used into the mid-1970s when concerns over the material’s stability popped up. Parchment size was then favored until the mid-1990s when leaf [[gelatin]] gained popularity. This is not to say that gelatin is always the best consolidant to use; no consolidation technique should be used without first considering the pigments and other materials involved, though. For example, gelatin causes white lead to become [[friability|friable.]] This problem is compounded by the flexible nature of parchment. One solution to this particular problem is to use some form of a cellulose ether such as [[Methylcellulose|methylcellulose,]] instead of gelatin. Again, this is not necessarily the right choice for every situation. <ref>Quandt, Abigail B. [ http://aic.stanford.edu/sg/bpg/annual/v15/bp15-14.html “Recent Developments in the Conservation of Parchment Manuscripts.”]</ref>
Soluble [[nylon]] was used into the mid-1970s when concerns over the material’s stability popped up. Parchment size was then favored until the mid-1990s when leaf [[gelatin]] gained popularity. This is not to say that gelatin is always the best consolidant to use; no consolidation technique should be used without first considering the pigments and other materials involved, though. For example, gelatin causes white lead to become [[friability|friable.]] This problem is compounded by the flexible nature of parchment. One solution to this particular problem is to use some form of a cellulose ether such as [[Methylcellulose|methylcellulose,]] instead of gelatin. Again, this is not necessarily the right choice for every situation. <ref>Quandt, Abigail B. [ http://aic.stanford.edu/sg/bpg/annual/v15/bp15-14.html “Recent Developments in the Conservation of Parchment Manuscripts.”]</ref>

There are a few basic requirements for any consolidation agent:
*It has to cause a strong bond has to form between the pigment and parchment;
*A strong bond also has to be formed between the layers of pigments and any loose particles;
*There has to be little alteration of the chemicals, including appearance;
*It cannot cause the parchment to loose flexibility.<ref>Guiffrida, Barbara. ‘’The Repair of Parchment and Vellum in Manuscript Form.”</ref>


====Ultrasonic Mister====
====Ultrasonic Mister====
Line 68: Line 74:


Problems may arise if condensed mist falls onto the parchment from the nozzle so it is advisable that the device be placed on the floor or a similarly low level to coax mist to drain back into the mister instead of falling upon the parchment.<ref>Quandt, Abigail B. [ http://aic.stanford.edu/sg/bpg/annual/v15/bp15-14.html “Recent Developments in the Conservation of Parchment Manuscripts.”]</ref>
Problems may arise if condensed mist falls onto the parchment from the nozzle so it is advisable that the device be placed on the floor or a similarly low level to coax mist to drain back into the mister instead of falling upon the parchment.<ref>Quandt, Abigail B. [ http://aic.stanford.edu/sg/bpg/annual/v15/bp15-14.html “Recent Developments in the Conservation of Parchment Manuscripts.”]</ref>

===Flattening and Crease Removal===

Traditional methods of removing creases and flattening parchment through humidifying have been detrimental to the state of any pigments, causing them to come off the parchment slightly. This is because the parchment and pigments take on and give off moisture at different rates, causing them to expand and contract at varying rates and thus loosening the pigment from the surface. This results in flaking, cupping, and cracking.<ref>Clarkson, Christopher. “A Conditioning Chamber for Parchment and Other Materials.” ''The Paper Conservator'' 16, 1992: 27-30.</ref>

===Gore-Tex===

The question becomes whether the damage to an image caused by flattening creased parchment so some extent is greater or lesser than the damage that will be caused to the image by not removing the crease. Sometimes not flattening the parchment in some respect will lead to the further degradation of an image. In these cases some form of hydration is necessary. Due to the nature of pigments, though, it is desirable to avoid direct contact with liquid water. This can be accomplished with [[Gore-Tex|Gore-Tex.]]

Gore-tex now has a controllable pore size and can block out many liquids, including liquid water and many conservation chemicals. Water vapor can still pass through the pores, though, so it is possible to hydrate the parchment and remove a crease without introducing liquid water to the pigmented image. This can be achieved by sandwiching a manuscript in Gore-Tex in varying ways to achieve the results you want.<ref>Singer, Hannah. “The Conservation of Parchment Objects Using Gore-Tex Laminate.” ''The Paper Conservator'' 16, 1992: 40-45.</ref>

===Mending===

Repairing a tear in a parchment with images or text on it is more of a challenge than mending a piece of parchment that does not have any such issues. Care must be taken to not cover up or obscure in any way the image or the text. Materials such as goldbeater skin can be made transparent enough to do this but great care still needs to be taken.<ref>Wouters, Jan, An Peckstadt, and Lieve Watteeuw. “Leafcasting with Dermal Tissue Preparations: A New Method for Repairing Fragile Parchment, and its Application to the Codex Eyckensis. ''The Paper Conservator'' 19, 1995: 5-22.</ref>

==Notable Preservationists==

*[[Paul N. Banks]]
*Anthony Cains
*Don Etherington
*Carolyn Horton
*Nicholas Pickwoad
*Roger Powell
*[[Peter Waters]]

Revision as of 03:40, 16 June 2007

Preserving parchment becomes more difficult when pigments, inks, and illumination are added into the equation. Pigments do not dye parchment; instead, they lie on the surface of the parchment and so are rather fragile.[1] The goal of restoring illuminated manuscripts should be to make them as resilient to damage while altering them as little as possible. Each individual manuscript, and even each individual page, must e considered as a separate object with different aspects that must be taken into consideration. This in turn will help determine the best course of preservation or conservation treatment.[2]

One of the best ways to become familiar with the variety of issues caused by various materials is to learn about how such manuscripts were made in the past and how they were subsequently treated in later years.[3]

Inks and Pigments

The best distinction between inks and pigments is that ink is a colored liquid while pigments are colored particles suspended in a liquid.[4] Areas colored by pigments usually have multiple layers of pigments and other mediums.[5] The most important aspect of preserving pigments and inks is to identify their composition. Some techniques are not suitable for certain pigments and will do further harm.[6]

Some examples of issues with pigments

  • Ultramarine – very stable to light but very unstable with acids; becomes friable and will crumble if outer skin is scraped, although this is hard to see at first without the aid of a microscope and can be made worse with the application of gelatin or other liquid consolidators.
  • Orpiment – loses color quickly with exposure to ozone; decays slowly in water; dissolves in hydrochloric acid and sodium hydroxide; reacts with lead- and copper-based pigments (such as lead white and verdigris); can corrode bindings; will not easily adhere to parchment and tend to flake off; cannot readily be consolidated with gelatin.
  • Lead White – darkens when exposed to air; reacts with verdigris and orpiment; generally stable to light
  • Verdigris – reacts with lead white and orpiment; decays parchment; tends to become friable and is not easily treated with gelatin or other liquid consolidators; chelating agents such as calcium and magnesium appear to prevent further degradation.[7]
  • Iron gall ink – very popular black ink; corrosive; can become brittle and fade.[8]

Identification

Identifying specific pigments is no easy task. Descriptions may be wrong or misleading and choosing the wrong treatment may cause irreversible damage.[9]

There are two different ways to identify pigments: invasive and non-invasive.

Invasive

These tests alter the manuscript in some way, usually by removing some pigment to test a sample. They are generally reliable but results are not always clear.[10]

Non-Invasive

These tests do not alter the manuscript and are much better for conservation purposes than the invasive methods of identification. Some methods include:

Ramen spectroscopy

Raman spectroscopy analyzes the molecular vibrations of the pigments and uses this data to map out its chemical makeup.[11] This works on the notion that every substance interacts with radiation in different ways, and these differing ways if measured can help identify the substance without having to take a sample. Unlike other non-invasive identification techniques the results of Raman spectroscopy are much more certain. It is even possible to analyze a pigment beneath a glaze or other treatment.[12]

Properties of Parchment

Parchment is hygroscopic. As such, environmental conditions such as humidity must be kept under control. Pigments add another layer to the problem, forcing a preservationist to fit environmental conditions to two different (and possibly conflicting) sets of ideal limits.[13]

Problems can occur when parchment is exposed to high humidity for a long period of time. For example, collagen in the pages could dissolve and stick together.[14]

These problems are further compounded by the fact that pigments do not dye parchment; instead, they lie on the surface of the parchment and so are rather fragile. Pressing an illuminated manuscript pushes the pigment down, altering the image itself and likely causing damage (such as a relief effect to the other side of the page) so it is very important to not put any pressure upon images on parchment, especially when it is wet.[15] This fact also has to be taken into account when cleaning dirt from the image and when encapsulating or framing illuminated parchment for an exhibition. There must be enough room between the image and the protective surface (such as Perspex) that the image will not be subject to rubbing if the parchment should expand with rising humidity.[16]

Methods of Repair

Consolidation

Consolidation is a process that can either strengthen the bond between pigment and parchment or add protection to pigments and other finishes from aqueous treatments. Strengthening the bond between pigments and parchment help prevent the pigments from flaking and pulling away. The challenge comes with achieving the best consolidation results while altering the object as little as possible.[17] The material used for consolidation should be appropriate for the pigments, the parchment, and any other aspects that may be affected by the application. .[18]

Soluble nylon was used into the mid-1970s when concerns over the material’s stability popped up. Parchment size was then favored until the mid-1990s when leaf gelatin gained popularity. This is not to say that gelatin is always the best consolidant to use; no consolidation technique should be used without first considering the pigments and other materials involved, though. For example, gelatin causes white lead to become friable. This problem is compounded by the flexible nature of parchment. One solution to this particular problem is to use some form of a cellulose ether such as methylcellulose, instead of gelatin. Again, this is not necessarily the right choice for every situation. [19]

There are a few basic requirements for any consolidation agent:

  • It has to cause a strong bond has to form between the pigment and parchment;
  • A strong bond also has to be formed between the layers of pigments and any loose particles;
  • There has to be little alteration of the chemicals, including appearance;
  • It cannot cause the parchment to loose flexibility.[20]

Ultrasonic Mister

One device recently used in consolidation techniques is the ultrasonic mister. Created in 1991 by Stefan Michalski, this device lends itself well to consolidating materials that react badly with liquids. Gelatin is the preferred consolidant.

The ultrasonic mister is usually used in conjunction with a paper suction table to direct the mist at the media and prevent distortion. This is not the best treatment for illuminated manuscripts that have printing on both sides, though. In this case it is better to forgo the suction table and instead use the lowest setting on the mister and to monitor the process carefully.

Problems may arise if condensed mist falls onto the parchment from the nozzle so it is advisable that the device be placed on the floor or a similarly low level to coax mist to drain back into the mister instead of falling upon the parchment.[21]

Flattening and Crease Removal

Traditional methods of removing creases and flattening parchment through humidifying have been detrimental to the state of any pigments, causing them to come off the parchment slightly. This is because the parchment and pigments take on and give off moisture at different rates, causing them to expand and contract at varying rates and thus loosening the pigment from the surface. This results in flaking, cupping, and cracking.[22]

Gore-Tex

The question becomes whether the damage to an image caused by flattening creased parchment so some extent is greater or lesser than the damage that will be caused to the image by not removing the crease. Sometimes not flattening the parchment in some respect will lead to the further degradation of an image. In these cases some form of hydration is necessary. Due to the nature of pigments, though, it is desirable to avoid direct contact with liquid water. This can be accomplished with Gore-Tex.

Gore-tex now has a controllable pore size and can block out many liquids, including liquid water and many conservation chemicals. Water vapor can still pass through the pores, though, so it is possible to hydrate the parchment and remove a crease without introducing liquid water to the pigmented image. This can be achieved by sandwiching a manuscript in Gore-Tex in varying ways to achieve the results you want.[23]

Mending

Repairing a tear in a parchment with images or text on it is more of a challenge than mending a piece of parchment that does not have any such issues. Care must be taken to not cover up or obscure in any way the image or the text. Materials such as goldbeater skin can be made transparent enough to do this but great care still needs to be taken.[24]

Notable Preservationists

  1. ^ Jenkins, Penny. “Printing on Parchment or Vellum.” The Paper Conservator 16, 1992: 31-9.
  2. ^ Guiffrida, Barbara. “The Repair of Parchment and Vellum in Manuscript Form.” ‘’The New Bookbinder’’ 3, 1983: 21-41.
  3. ^ Turner, Nancy. “The Conservation of Medieval Manuscript Illuminations and the Question of Compensation.” ‘’WAAC Newsletter’’16(1), January 1994: 21-22.
  4. ^ Kunjappu, Joy. ”Ink Chemistry.” ‘’Chembytes Ezine’’ 2003.
  5. ^ Guiffrida, Barbara. ‘’The Repair of Parchment and Vellum in Manuscript Form.”
  6. ^ Common Medieval Pigments.
  7. ^ Banik, Gerhard, and Johann Ponahlo. “Some Aspects of Degradation Phenomena of Paper Caused by Green Copper-Containing Pigments.” ‘’The Paper Conservator’’ 7, 1982/83: 3-7.
  8. ^ Quandt, Abigail B.[ http://aic.stanford.edu/sg/bpg/annual/v15/bp15-14.html “Recent Developments in the Conservation of Parchment Manuscripts.”] ‘’The Book and Paper Group ANNUAL’’ 15, 1996.
  9. ^ Brown, Michelle P. “Pigments and their Uses in Insular Manuscripts.” ‘’Roger Powell: The Compleat Binder.’’ Edited by John L. Sharpe. ‘’Bibliologia 14: Elementa ad librarum studia pertenentia,’’ 1996: 136-145).
  10. ^ Common Medieval Pigments.
  11. ^ Brown, Michelle P. “Pigments and their Uses in Insular Manuscripts.”
  12. ^ Porter, Cheryl. “Laser Raman Spectroscopy: A Tool for Non-Destructive Pigment Analysis of Manuscripts.” The Paper Conservator 16, 1992: 93-97.
  13. ^ Clarkson, Christopher. “Rediscovering Parchment: The Nature of the Beast.” The Paper Conservator 16, 1992: 5-7.
  14. ^ Mowery, J. Franklin. “The Conservation of a Thirteenth Century Armenian Manuscript.” ‘’The Book and Paper Group ANNUAL’’ 10, 1991.
  15. ^ Cains, Anthony. “The Vellum of the Book of Kells.” ‘’The Paper Conservator” 16, 1992: 50-66.
  16. ^ Pickwoad, Nicholas. “Alternative Methods of Mounting Parchment for Framing and Exhibition.” The Paper Conservator 16, 1992:78-85.
  17. ^ Maheux, Anne F., and Wanda McWilliams. “The Use of the Ultrasonic Mister for the Consolidation of a Flaking Gouache Painting on Paper. ‘’The Book and Paper Group ANNUAL’’ 14, 1995.
  18. ^ Quandt, Abigail B. [ http://aic.stanford.edu/sg/bpg/annual/v15/bp15-14.html “Recent Developments in the Conservation of Parchment Manuscripts.”]
  19. ^ Quandt, Abigail B. [ http://aic.stanford.edu/sg/bpg/annual/v15/bp15-14.html “Recent Developments in the Conservation of Parchment Manuscripts.”]
  20. ^ Guiffrida, Barbara. ‘’The Repair of Parchment and Vellum in Manuscript Form.”
  21. ^ Quandt, Abigail B. [ http://aic.stanford.edu/sg/bpg/annual/v15/bp15-14.html “Recent Developments in the Conservation of Parchment Manuscripts.”]
  22. ^ Clarkson, Christopher. “A Conditioning Chamber for Parchment and Other Materials.” The Paper Conservator 16, 1992: 27-30.
  23. ^ Singer, Hannah. “The Conservation of Parchment Objects Using Gore-Tex Laminate.” The Paper Conservator 16, 1992: 40-45.
  24. ^ Wouters, Jan, An Peckstadt, and Lieve Watteeuw. “Leafcasting with Dermal Tissue Preparations: A New Method for Repairing Fragile Parchment, and its Application to the Codex Eyckensis. The Paper Conservator 19, 1995: 5-22.
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