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Sizing or size is any one of numerous specific substances that is applied to or incorporated in other material, especially papers and textiles, as a protecting filler or glaze. Sizing is used in papermaking and textile manufacturing to change the absorption and wear characteristics of those materials; it is used as a surface preparation for gilding; and it is used by painters and artists to prepare paper and textile surfaces for some art techniques.

Sizing also refers to the process of including or applying the substance.

Contents

Papermaking

Sizing is used during paper manufacture in order to reduce the paper's tendency when dry to absorb liquid, with the goal of allowing inks and paints to remain on the surface of the paper, and to dry there rather than be absorbed into the paper. This provides a more consistent, economical, and precise printing, painting, and writing surface. This is achieved by curbing the paper fibers' tendency to absorb liquids by capillary action. In addition, sizing affects abrasiveness, creasibility, finish, printability, smoothness, and surface bond strength and decreases surface porosity and fuzzing.

There are three categories of papers with respect to sizing: unsized (water-leaf), weak sized (slack sized), and strong sized (hard sized). Waterleaf has low water resistance and includes absorbent papers for blotting. Slack sized paper is somewhat absorbent and includes newsprint, while hard sized papers have the highest water resistance, such as coated fine papers and liquid packaging board.

There are two types of sizing: internal sizing, sometimes also called engine sizing, and surface sizing (tub sizing). Internal sizing is applied to almost all papers and especially to all those that are machine made, while surface sizing is added for the highest grade bond, ledger, and writing papers.

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Surface sizing

Surface sizing solutions consists of mainly modified starches or sometime other hydrocolloid as gelatine and a surface sizing agent such as AKD or acrylic co-polymers. Surface sizing agents are amphipathic molecules, having both hydrophilic (water-loving) and hydrophobic (water-repelling) ends. The sizing agent covers the cellulose and forms a film, with the hydrophilic tail facing the fiber and the hydrophobic tail facing outwards. This creates a water-repellent situation. Sizing improves the surface strength, printability, and water resistance of the paper surface. In the sizing solution, optical brightening agents (OBA) may also be added to improve the opacity and whiteness of the paper surface.

Internal sizing

Internal sizing chemicals used in papermaking at the wet end are ASA, AKD and rosin. By making the paper web more hydrophobic, the sizing agents influence dewatering and retention of fillers and fibers in the paper sheet. Next to paper quality, internal sizing agents' main effect is on runability of the paper machine.

Preservation Related Issues

As the process of sizing had and has the intent of making the paper suitable for printing, it would seem slightly ironic that some processes of sizing would make printing paper a problem for the continued existence of that paper and those who would preserve them. Sizing processes started early on in the paper making processes, with historians citing that items, such as starch, were early sizing agents used on paper.[1] Dard Hunter in Papermaking through Eighteen Centuries corroborates this by writing, “The Chinese used starch as a size for paper as early as A.D. 768 and its use continued until the fourteenth century when animal glue was substituted.” [2] In the early modern paper mills in Europe, which produced paper for printing and other uses, the sizing agent of choice was gelatin, as Susan Swartzburg writes in Preserving Library Materials': “Various substances have been used for sizing through the ages, from gypsum to animal gelatin.” [3] Hunter describes the process of sizing in these paper mills in the following:

The drying completed, the old papermakers dipped their paper into an animal size that had been made from the parings of hides, which they procured from the parchment-makers. It was necessary to size that paper so that it would be impervious to ink, but sizing was more needed in writing than in printing papers. Many books of the fifteenth century were printed upon paper that had not been sized, this extra treatment not being essential for a type impression. The sizing was accomplished by a worker holding a number of sheets by the aid of two wooden sticks, and dipping the paper into the warm gelatinous liquid. The sheets were then pressed to extract the superfluous gelatine. This crude method of sizing the paper was extremely wasteful as many sheets were torn and bruised beyond use. The sizing room of the early paper mills, was, for this reason, known as the ‘slaughter-house.’[4]

With the advent of the mass production of paper, the type of size used for paper production also changed. As Swartzburg writes, “By 1850 rosin size had come into use. Unfortunately, it produces a chemical action that hastens the decomposition of even the finest papers.” [5] In the field of library preservation it is known “that acid hydrolysis of cellulose and related carbo-hydrates [sic] is one of the key factors responsible for the degradation of paper during ageing.” [6] Some recent professional work has focused on the specific in the degradation involved in the deterioration of paper that has had a rosin sizing process, and what amount of rosin affects the deterioration process,[7] in addition to work on developing permanent paper and sizing agents that will not eventually destroy the paper.[8] An issue on the periphery to the preservation of paper and sizing, is washing, which is described by V. Daniels and J. Kosek as, “The removal of discolouration ... in water is principally effected by the dissolution of water-soluble material; this is usually done by immersing paper in water.”[9] In such a process, surface level items applied to the paper, such as size in early paper making processes as seen above, have the possibility of being removed from the paper, which might have some item specific interest in a special collections library. With later processes in paper making being more akin to “engine sizing,” as H. Hardman and E. J. Cole describe it, “Engine sizing, with is part of the manufacturing process, has the ingredients added to the furnish or stock prior to sheet formation,”[10] the concern for the removal of size is less, and as such, most literature focuses on the more pressing issue of preserving acidic papers and similar issues.

Gilding

Sizing is applied to surfaces before gilding in order to remove small surface imperfections that would otherwise be highlighted by the very thin metal used.

Textile warp sizing

Sizing of the warp yarn is essential to reduce breakage of the yarn and thus production stops on the weaving machine. On the weaving machine, the warp yarns are subjected to several types of actions i.e. cyclic strain, flexing, abrasion at various loom parts and inter yarn friction.

With sizing the strength - abrasion resistance - of the yarn will improve and the hairiness of yarn will decrease. The degree of improvement of strength depends on adhesion force between fiber and size, size penetration as well as encapsulation of yarn. Different types of water soluble polymers called textile sizing agents/chemicals such as modified starch, polyvinyl alcohol (PVA), carboxymethyl cellulose (CMC), acrylates are used to protect the yarn. Also wax is added to reduce the abrasiveness of the warp yarns. The type of yarn material e.g. cotton, polyester,linen,... the thickness of the yarn, type of weaving machinery will determine the sizing recipe.

The sizing liquor is applied on warp yarn with a warp sizing machine. After the weaving process the fabric is desized (washed).

See also

References

  1. ^ Robert Henderson Clapperton and William Henderson. Modern Paper-making. 3rd ed. (Oxford: Basil Blackwell, 1947), 120.
  2. ^ Dard Hunter, Papermaking through Eighteen Centuries. (New York: William Edwin Rudge, 1930), 141.
  3. ^ Susan G. Swartzburg, Preserving Library Materials: A Manual. 2nd ed. (Metuchen, NJ: The Scarecrow Press, 1995), 131.
  4. ^ Hunter, Papermaking through Eighteen Centuries, 140-141.
  5. ^ Swartzburg, Preserving Library Materials, 131.
  6. ^ Altaf H. Basta and others, “The Role of Neutral Rosin-Alum Size in the Production of Permanent Paper.” Restaurator: International Journal for the Preservation of Library and Archival Material, 27, no. 2 (2006): 67.
  7. ^ Houssni El-Saied, Altaf H. Basta and Mona M. Abdou. “Permanence of Paper 1: Problems and Permanency of Alum-Rosin Sized Paper Sheets from Wood Pulp.” Restaurator: International journal for the Preservation of Library and Archival Material, 19, no. 3 (1998): 155-171.
  8. ^ Altaf H. Basta and others, “The Role of Neutral Rosin-Alum Size in the Production of Permanent Paper,” 67-80.
  9. ^ V. Daniels and J. Kosek, . “Studies on the Washing of Paper, Part 1: The Influence of Wetting on the Washing Rate.” Restaurator: International journal for the Preservation of Library and Archival Material, 25, no. 2 (2004): 81.
  10. ^ H. Hardman, and E. J. Cole. Paper-making Practice. (Manchester: Manchester University Press, 1960), 112.

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