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'''Paper''' is a commodity of thin material produced by the amalgamation of [[fiber]]s, typically vegetable fibers composed of [[cellulose]], which are subsequently held together by hydrogen bonding. While the fibres used are usually natural in origin, a wide variety of synthetic fibers, such as polypropylene and polyethylene, may be incorporated into paper as a way of imparting desirable physical properties. The most common source of these kinds of fibers is [[wood pulp]] from [[pulpwood]] trees, largely [[softwood]]s and [[hardwood]]s, such as [[spruce]] and [[aspen]] respectively. Other [[fiber crop|vegetable fibre]] materials including those of [[cotton]], [[hemp]], [[linen]], and [[rice]] may be used. |
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===Processing of the fibers=== |
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Wood or plant cell walls are composed of fibers bound together. During pulping, these fibers are separated from each other and [[carbohydrate]] surfaces ([[cellulose]] or [[hemicellulose]]) are exposed. It is hydrogen bonding between these carbohydrate surfaces that provides paper strength. Fibers can be separated either chemically or mechanically. |
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Most chemical pulp is made using the [[Kraft process]]. The purpose of a chemical pulping process is to break down the chemical structure of [[lignin]] and render it soluble in the cooking liquor, so it may be washed from the [[cellulose]] fibers. Because lignin holds the plant cells together, chemical pulping frees the fibers and makes pulp. After Kraft pulping the pulp can be used directly for bags and boxes or further delignifed, during bleaching, to produce white pulp for [[printing]] and [[writing]]. Chemical pulps tend to cost more than mechanical pulps, largely due to the low yield, 40-50% of the original wood. Since the process preserves fiber length, however, chemical pulps tend to make stronger paper. Another advantage of chemical pulping is that the majority of the heat and electricity needed to run the process is produced by burning the lignin removed during pulping. |
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There are two major mechanical pulps, thermomechanical pulp (TMP) and groundwood. In the TMP process wood is chipped and then fed into large steam-heated refiners where the chips are squeezed and fiberized between two steel discs. In the groundwood process debarked logs are fed in into grinders where they are pressed against rotating stones and fiberized. Mechanical pulping does not remove the lignin, so the yield is very high, > 95%, but also causes paper made from this pulp to yellow and become brittle over time. Mechanical pulps have rather short fiber lengths and produce weak paper. Although large amounts of electrical energy are required to produce mechanical pulp, it costs less than chemical pulp. |
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Paper made from either chemical or mechanical pulp can also be recycled. By mixing with water and applying mechanical action the hydrogen bonds in the paper can be broken and fibers separated again. |
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===Drying=== |
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After the paper web is produced, the water must be removed from it in order to create a usable product. This is accomplished through pressing and drying. The methods of doing so vary between the different processes used to make paper, but the concepts remain the same. |
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Pressing the sheet removes the water by force. Once the water is forced from the sheet, another absorbant material must be used to collect this water. On a paper machine this is called a felt (not to be confused with the traditional [[felt]]). When making paper by hand, a blotter sheet is used. |
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Drying involves using air and or heat to remove water from the paper sheet. In the earliest days of papermaking this was done by hanging the paper sheets like laundry. In more modern times, various forms of heated drying mechanisms are used. On the paper machine, the most common is the steam-heated can dryer. These dryer cans heat to temperatures above 200°F (93°C) and are used in long sequences of more than 40 cans. The heat produced by these can easily dry the paper to less than 6% moisture. |
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The paper may then undergo "[[sizing]]" to alter its physical properties for use in various applications. |
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==Applications== |
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[[Image:Paper trimmer.jpg|thumb|150px|A [[paper trimmer]].]] |
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<!-- Unsourced image removed: [[Image:Mooreburster.jpg|thumb|150px|A [[bursting machine]].]] --> |
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[[Image:Coloured_gift_paper.jpg|thumb|150px|Sheets of coloured [[gift paper]].]] |
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*To write or print on: the piece of paper becomes a [[document]]; this may be for keeping a record (or in the case of printing from a computer or copying from another paper: an additional record) and for [[communication]]; see also [[Reading (activity)|reading]]. |
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*To represent a value: |
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**[[paper money]] |
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**[[bank note]] |
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**[[check (finance)|check]] |
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**[[security]] |
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**[[voucher]] |
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**[[ticket]] |
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*For entertainment: |
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**book |
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**[[magazine]] |
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**newspaper |
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**[[art]] |
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**[[zine]] |
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*For [[packaging]]: |
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**[[corrugated box]] |
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**[[paper bag]] |
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**[[envelope]] |
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**[[wrapping tissue]] |
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**[[wallpaper]] |
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*For [[cleaning]] |
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**[[toilet paper]] |
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**[[handkerchief]]s |
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**[[paper towel]]s |
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**[[facial tissue]] |
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**[[cat litter]] |
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*For construction |
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**[[papier-mâché]] |
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**[[origami]] |
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**[[quilling]] |
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**Paper [[honeycomb]], used as a core material in [[composite material]]s |
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**[[paper engineering]], see also [[construction paper]] |
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**[[clothing]] |
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*Other uses |
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**[[emery paper]] |
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**[[sandpaper]] |
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**[[blotting paper]] |
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**[[litmus paper]] |
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**[[universal indicator]] paper |
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**[[paper chromatography]] |
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==Types== |
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{{col-begin}} |
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{{col-break}} |
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*[[Construction paper|Construction paper/sugar paper]] |
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*[[Cotton paper]] |
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*[[Electronic paper]] |
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*[[Fish paper]] ([[Vulcanized]] fibers for electrical insulation) |
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*[[Inkjet paper]] |
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*[[Laid paper]] |
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*[[Leather paper]] |
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*[[Newsprint]] |
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*[[pH Indicator]] paper |
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**[[Litmus paper]] |
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**[[Universal indicator]] paper |
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*[[Photographic paper]] |
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*[[Plain paper]] |
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{{col-break}} |
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*[[Recycled]] paper |
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*[[Rice paper]] |
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*[[Sandpaper]] |
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*[[Tracing paper]] |
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*[[Tyvek paper]] |
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*[[Wallpaper]] |
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*[[Washi]] |
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*[[Wax paper]] |
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*[[Wet and Dry Paper]] |
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*[[Wove paper]] |
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*[[Coated paper]]: glossy and matt surface |
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*[[Uncoated paper]], also named [[wood free paper]] |
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{{col-end}} |
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==History== |
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{{main|Papermaking}} |
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===Old World=== |
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The word ''paper'' comes from the Greek term for the ancient [[Egypt|Egyptian]] writing material called [[papyrus]], which was formed from beaten strips of [[Cyperus papyrus|papyrus plants]]. Papyrus was produced as early as 3000 BC in Egypt, and sold to ancient [[Greece]] and [[Rome]]. The establishment of Great library at Alexandria put a drain on the supply of Papyrus, so According to the Roman Varro, Pliny's Natural History records (xiii.21), [[parchment]] was invented under the patronage of Eumenes of Pergamum, to build his rival libray at Permagum. [[parchment]] or [[vellum]], made of processed [[sheep]]skin or [[calf]]skin, replaced papyrus, as the papyrus plant requires subtropical conditions to grow. |
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In China, documents were ordinarily written on bone or [[bamboo]], making them very heavy and awkward to transport. [[Silk]] was sometimes used, but was normally too expensive to consider. Indeed, most of the above materials were rare and costly. While the [[China|Chinese]] court official [[Cai Lun]] is widely regarded to have first described the modern method of papermaking (inspired from wasps and bees) from [[wood pulp]] in AD [[105]], the [[2006]] discovery of specimens bearing written characters in north-west China's [[Gansu]] province suggest that paper was in use by the ancient Chinese military more than [[100]] years before Cai in [[8 BCE]] [http://news.xinhuanet.com/english/2006-08/08/content_4937457.htm]. Archæologically however, true paper without writing has been excavated in China dating from the [[2nd century BC|2nd-century BCE]]. |
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Paper is considered to be one of the [[Four Great Inventions of Ancient China]]. It spread slowly outside of China; other East Asian cultures, even after seeing paper, could not figure out how to make it themselves. Instruction in the manufacturing process was required, and the Chinese were reluctant to share their secrets. The paper was thin and translucent, not like modern western paper, and thus only written on one side. Books were invented in India, of Palm leaves (where we derive the name leaf for a sheet of a book). The technology was first transferred to Korea in [[604]] and then imported to Japan by a Buddhist priest, [[Dam Jing]] (曇徴) from [[Goguryeo]], around [[610]], where fibres (called ''[[Bast (biology)|bast]]'') from the [[mulberry]] tree were used. |
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After further commercial trading and the defeat of the Chinese in the [[Battle of Talas]], the invention spread to the [[Middle East]], Production was started in Baghdad, where the arabs invented a method to make a thicker sheet of paper. The manufacture had spread to Damascus by the time of the first crusade, but the wars interupted production, and it split into two centers. Ciaro continued with the thicker paper. Iran became the center of the thinner papers, where it was adopted in [[India]] The first paper mill in Europe was in Spain, at Xavia (modern Valencia) in 1120. More mills appeared in Fabriano [[Italy]] in about the [[13th century]], as an import from [[Islamic Spain]]. They used [[hemp]] and [[linen]] rags as a source of fiber. The oldest known paper document in the West is the [[Mozarab]] [[Missal of Silos]] from the [[11th century]], probably written in the Islamic part of Spain. Paper is recorded as being manufactured in both [[Italy]] and [[Germany]] by 1400, just about the time when the [[woodcut]] [[printmaking]] technique was transferred from fabric to paper in the [[old master print]] and [[popular prints]]. |
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Some historians speculate that paper was the key element in global cultural advancement. According to this theory, Chinese culture was less developed than the West in ancient times prior to the [[Han Dynasty]] because bamboo, while abundant, was a clumsier writing material than papyrus; Chinese culture advanced during the Han Dynasty and preceding centuries due to the invention of paper; and Europe advanced during the [[Renaissance]] due to the introduction of paper and the [[printing press]]. |
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In the very small quantities needed for [[popular prints]] , paper was affordable by the European urban working class and many peasants even in the 1400s, but books remained expensive until the nineteenth century. However even poor families could often afford a few by the 1700s in England, if they so chose. |
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Paper remained relatively expensive, at least in book-sized quantities, through the centuries, until the advent of steam-driven paper making machines in the 19th century, which could make paper with [[fibres]] from [[wood pulp]]. Although older machines predated it, the [[Fourdrinier Machine|Fourdrinier]] paper making machine became the basis for most modern papermaking. Together with the invention of the practical [[fountain pen]] and the mass produced [[pencil]] of the same period, and in conjunction with the advent of the steam driven rotary [[printing press]], wood based paper caused a major transformation of the 19th century economy and society in industrialized countries. With the introduction of cheaper paper, schoolbooks, fiction, non-fiction, and newspapers became gradually available to all the members of an industrial society by 1900. Cheap wood based paper also meant that keeping personal diaries or writing letters became universal. The [[clerk]], or writer, ceased to be a high-status job, and by 1850 had nearly become an office worker or [[white-collar worker]] , which transformation can be considered as a part of the [[industrial revolution]]. |
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Unfortunately, the original wood-based paper was more acidic and more prone to disintegrate over time, through processes known as [[slow fires]]. Documents written on more expensive rag paper were more stable. The majority of modern book publishers now use [[acid-free paper]]. |
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===New World=== |
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In America, archaeological evidence indicates that paper was invented by the Mayas no later than the 5th century AD.<ref>[http://www.mathcs.duq.edu/~tobin/maya/ The Construction of the Codex In Classic- and Postclassic-Period Maya Civilization] Maya Codex and Paper Making</ref> Called [[Amatl]], it was in widespread use among Mesoamerican cultures until the Spanish conquest. In small quantities, traditional Maya papermaking techniques are still practiced today. |
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==The future of paper== |
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Some manufacturers, notably [[AMD]], have started using a new, slightly more environmentally friendly alternative to expanded plastic packaging made out of paper, known commercially as [[paperfoam]]. The packaging has very similar mechanical properties to some expanded plastic packaging, but is biodegradable and can also be recycled with ordinary paper. [http://www.paperfoam.com/] |
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With increasing environmental concerns about synthetic coatings (such as [[PFOA]]) and the currently higher prices of hydrocarbon based petrochemicals, there is a recent focus on [[zein]] (corn protein) as a coating for paper in high grease applications such as popcorn bags. [http://v3.espacenet.com/textdoc?DB=EPODOC&IDX=WO2006002346&F=0] |
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Synthetics such as [[Tyvek]] and [[Teslin]] have been introduced as printing media as a more durable material than paper. |
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In 2006, the world's first "Paper Technology Centre" was opened in [[Heidenheim]], [[Germany]], the headquarters of the [[Voith]] paper machine company, at the cost of 75 million Euros [http://www.voithpaper.de/vp_e_grpdiv_history_today.htm]. |
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==References== |
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<references/> |
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==See also== |
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*[[TAPPI]] Technical Association of the Pulp and Paper Industry |
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*[[Paper recycling]] |
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==External links== |
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*[http://www.paprican.ca/ Pulp and Paper Research Institute of Canada] |
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*[http://www.risiinfo.com Resource Information Systems Inc.] |
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*[http://www.afandpa.org/ American Forest & Paper Association] |
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*[http://www.pima-online.org/ Paper Industry Management Association] |
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*[http://www.straightdope.com/mailbag/mpapermaking.html ''How is paper made?''] at The [[Straight Dope]], [[22 November]] [[2005]] |
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*[http://internationalpaper.com/Our%20Company/Learning%20Center/How%20Paper%20Is%20Made.html How Paper Is Made] |
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*[http://www.gpo.gov/acquisition/paperspecs.htm United States Government Printing Office: Government Paper Specification Standards] |
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*[http://www.angelfire.com/stars5/shant/cotton-paper-india.htm ''How is cotton paper made in India?''] |
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*[http://dragonfly.tam.cornell.edu/fallingpaper.html Dynamics of falling paper] |
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[[Category:Materials]] |
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[[Category:Stationery]] |
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[[Category:Art materials]] |
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[[Category:Paper art]] |
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[[Category:Recyclable materials]] |
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{{Link FA|de}} |
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{{Link FA|vi}} |
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[[als:Papier]] |
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[[ar:ورق]] |
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[[bs:Papir]] |
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[[bg:Хартия]] |
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[[ca:Paper]] |
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[[cs:Papír]] |
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[[da:Papir]] |
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[[de:Papier]] |
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[[dv:ކަރުދާސް]] |
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[[el:Χαρτί]] |
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[[es:Papel]] |
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[[eo:Papero]] |
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[[eu:Paper]] |
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[[fa:کاغذ]] |
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[[fr:Papier]] |
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[[gd:Pàipear]] |
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[[gl:Papel]] |
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[[ko:종이]] |
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[[hr:Papir]] |
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[[id:Kertas]] |
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[[is:Pappír]] |
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[[it:Carta]] |
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[[he:נייר]] |
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[[ka:ქაღალდი]] |
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[[ku:Kaxez]] |
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[[lt:Popierius]] |
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[[ms:Kertas]] |
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[[nl:Papier]] |
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[[ja:紙]] |
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[[no:Papir]] |
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[[pl:Papier]] |
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[[pt:Papel]] |
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[[ro:Hârtie]] |
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[[ru:Бумага]] |
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[[sq:Letra]] |
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[[simple:Paper]] |
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[[sk:Papier]] |
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[[sl:Papir]] |
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[[sr:Папир]] |
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[[sh:Papir]] |
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[[su:Kertas]] |
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[[fi:Paperi]] |
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[[sv:Papper]] |
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[[th:กระดาษ]] |
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[[vi:Giấy]] |
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[[tr:Kâğıt]] |
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[[uk:Папір]] |
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[[yi:פאפיר]] |
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[[zh-yue:紙]] |
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[[zh:纸]] |
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Revision as of 18:24, 5 February 2007
Paper is a commodity of thin material produced by the amalgamation of fibers, typically vegetable fibers composed of cellulose, which are subsequently held together by hydrogen bonding. While the fibres used are usually natural in origin, a wide variety of synthetic fibers, such as polypropylene and polyethylene, may be incorporated into paper as a way of imparting desirable physical properties. The most common source of these kinds of fibers is wood pulp from pulpwood trees, largely softwoods and hardwoods, such as spruce and aspen respectively. Other vegetable fibre materials including those of cotton, hemp, linen, and rice may be used.
Processing of the fibers
Wood or plant cell walls are composed of fibers bound together. During pulping, these fibers are separated from each other and carbohydrate surfaces (cellulose or hemicellulose) are exposed. It is hydrogen bonding between these carbohydrate surfaces that provides paper strength. Fibers can be separated either chemically or mechanically.
Most chemical pulp is made using the Kraft process. The purpose of a chemical pulping process is to break down the chemical structure of lignin and render it soluble in the cooking liquor, so it may be washed from the cellulose fibers. Because lignin holds the plant cells together, chemical pulping frees the fibers and makes pulp. After Kraft pulping the pulp can be used directly for bags and boxes or further delignifed, during bleaching, to produce white pulp for printing and writing. Chemical pulps tend to cost more than mechanical pulps, largely due to the low yield, 40-50% of the original wood. Since the process preserves fiber length, however, chemical pulps tend to make stronger paper. Another advantage of chemical pulping is that the majority of the heat and electricity needed to run the process is produced by burning the lignin removed during pulping.
There are two major mechanical pulps, thermomechanical pulp (TMP) and groundwood. In the TMP process wood is chipped and then fed into large steam-heated refiners where the chips are squeezed and fiberized between two steel discs. In the groundwood process debarked logs are fed in into grinders where they are pressed against rotating stones and fiberized. Mechanical pulping does not remove the lignin, so the yield is very high, > 95%, but also causes paper made from this pulp to yellow and become brittle over time. Mechanical pulps have rather short fiber lengths and produce weak paper. Although large amounts of electrical energy are required to produce mechanical pulp, it costs less than chemical pulp.
Paper made from either chemical or mechanical pulp can also be recycled. By mixing with water and applying mechanical action the hydrogen bonds in the paper can be broken and fibers separated again.
Drying
After the paper web is produced, the water must be removed from it in order to create a usable product. This is accomplished through pressing and drying. The methods of doing so vary between the different processes used to make paper, but the concepts remain the same.
Pressing the sheet removes the water by force. Once the water is forced from the sheet, another absorbant material must be used to collect this water. On a paper machine this is called a felt (not to be confused with the traditional felt). When making paper by hand, a blotter sheet is used.
Drying involves using air and or heat to remove water from the paper sheet. In the earliest days of papermaking this was done by hanging the paper sheets like laundry. In more modern times, various forms of heated drying mechanisms are used. On the paper machine, the most common is the steam-heated can dryer. These dryer cans heat to temperatures above 200°F (93°C) and are used in long sequences of more than 40 cans. The heat produced by these can easily dry the paper to less than 6% moisture.
The paper may then undergo "sizing" to alter its physical properties for use in various applications.
Applications
- To write or print on: the piece of paper becomes a document; this may be for keeping a record (or in the case of printing from a computer or copying from another paper: an additional record) and for communication; see also reading.
- To represent a value:
- For entertainment:
- For packaging:
- For cleaning
- For construction
- papier-mâché
- origami
- quilling
- Paper honeycomb, used as a core material in composite materials
- paper engineering, see also construction paper
- clothing
- Other uses
Types
|
|
History
Old World
The word paper comes from the Greek term for the ancient Egyptian writing material called papyrus, which was formed from beaten strips of papyrus plants. Papyrus was produced as early as 3000 BC in Egypt, and sold to ancient Greece and Rome. The establishment of Great library at Alexandria put a drain on the supply of Papyrus, so According to the Roman Varro, Pliny's Natural History records (xiii.21), parchment was invented under the patronage of Eumenes of Pergamum, to build his rival libray at Permagum. parchment or vellum, made of processed sheepskin or calfskin, replaced papyrus, as the papyrus plant requires subtropical conditions to grow.
In China, documents were ordinarily written on bone or bamboo, making them very heavy and awkward to transport. Silk was sometimes used, but was normally too expensive to consider. Indeed, most of the above materials were rare and costly. While the Chinese court official Cai Lun is widely regarded to have first described the modern method of papermaking (inspired from wasps and bees) from wood pulp in AD 105, the 2006 discovery of specimens bearing written characters in north-west China's Gansu province suggest that paper was in use by the ancient Chinese military more than 100 years before Cai in 8 BCE [1]. Archæologically however, true paper without writing has been excavated in China dating from the 2nd-century BCE.
Paper is considered to be one of the Four Great Inventions of Ancient China. It spread slowly outside of China; other East Asian cultures, even after seeing paper, could not figure out how to make it themselves. Instruction in the manufacturing process was required, and the Chinese were reluctant to share their secrets. The paper was thin and translucent, not like modern western paper, and thus only written on one side. Books were invented in India, of Palm leaves (where we derive the name leaf for a sheet of a book). The technology was first transferred to Korea in 604 and then imported to Japan by a Buddhist priest, Dam Jing (曇徴) from Goguryeo, around 610, where fibres (called bast) from the mulberry tree were used.
After further commercial trading and the defeat of the Chinese in the Battle of Talas, the invention spread to the Middle East, Production was started in Baghdad, where the arabs invented a method to make a thicker sheet of paper. The manufacture had spread to Damascus by the time of the first crusade, but the wars interupted production, and it split into two centers. Ciaro continued with the thicker paper. Iran became the center of the thinner papers, where it was adopted in India The first paper mill in Europe was in Spain, at Xavia (modern Valencia) in 1120. More mills appeared in Fabriano Italy in about the 13th century, as an import from Islamic Spain. They used hemp and linen rags as a source of fiber. The oldest known paper document in the West is the Mozarab Missal of Silos from the 11th century, probably written in the Islamic part of Spain. Paper is recorded as being manufactured in both Italy and Germany by 1400, just about the time when the woodcut printmaking technique was transferred from fabric to paper in the old master print and popular prints.
Some historians speculate that paper was the key element in global cultural advancement. According to this theory, Chinese culture was less developed than the West in ancient times prior to the Han Dynasty because bamboo, while abundant, was a clumsier writing material than papyrus; Chinese culture advanced during the Han Dynasty and preceding centuries due to the invention of paper; and Europe advanced during the Renaissance due to the introduction of paper and the printing press.
In the very small quantities needed for popular prints , paper was affordable by the European urban working class and many peasants even in the 1400s, but books remained expensive until the nineteenth century. However even poor families could often afford a few by the 1700s in England, if they so chose.
Paper remained relatively expensive, at least in book-sized quantities, through the centuries, until the advent of steam-driven paper making machines in the 19th century, which could make paper with fibres from wood pulp. Although older machines predated it, the Fourdrinier paper making machine became the basis for most modern papermaking. Together with the invention of the practical fountain pen and the mass produced pencil of the same period, and in conjunction with the advent of the steam driven rotary printing press, wood based paper caused a major transformation of the 19th century economy and society in industrialized countries. With the introduction of cheaper paper, schoolbooks, fiction, non-fiction, and newspapers became gradually available to all the members of an industrial society by 1900. Cheap wood based paper also meant that keeping personal diaries or writing letters became universal. The clerk, or writer, ceased to be a high-status job, and by 1850 had nearly become an office worker or white-collar worker , which transformation can be considered as a part of the industrial revolution.
Unfortunately, the original wood-based paper was more acidic and more prone to disintegrate over time, through processes known as slow fires. Documents written on more expensive rag paper were more stable. The majority of modern book publishers now use acid-free paper.
New World
In America, archaeological evidence indicates that paper was invented by the Mayas no later than the 5th century AD.[1] Called Amatl, it was in widespread use among Mesoamerican cultures until the Spanish conquest. In small quantities, traditional Maya papermaking techniques are still practiced today.
The future of paper
Some manufacturers, notably AMD, have started using a new, slightly more environmentally friendly alternative to expanded plastic packaging made out of paper, known commercially as paperfoam. The packaging has very similar mechanical properties to some expanded plastic packaging, but is biodegradable and can also be recycled with ordinary paper. [2]
With increasing environmental concerns about synthetic coatings (such as PFOA) and the currently higher prices of hydrocarbon based petrochemicals, there is a recent focus on zein (corn protein) as a coating for paper in high grease applications such as popcorn bags. [3]
Synthetics such as Tyvek and Teslin have been introduced as printing media as a more durable material than paper.
In 2006, the world's first "Paper Technology Centre" was opened in Heidenheim, Germany, the headquarters of the Voith paper machine company, at the cost of 75 million Euros [4].
References
- ^ The Construction of the Codex In Classic- and Postclassic-Period Maya Civilization Maya Codex and Paper Making
See also
- TAPPI Technical Association of the Pulp and Paper Industry
- Paper recycling
External links
- Pulp and Paper Research Institute of Canada
- Resource Information Systems Inc.
- American Forest & Paper Association
- Paper Industry Management Association
- How is paper made? at The Straight Dope, 22 November 2005
- How Paper Is Made
- United States Government Printing Office: Government Paper Specification Standards
- How is cotton paper made in India?
- Dynamics of falling paper