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A printing press is a device for applying pressure to an inked surface resting upon a print medium (such as paper or cloth), thereby transferring the ink. This was a dramatic improvement on earlier printing methods in which the cloth, paper or other medium was brushed or rubbed repeatedly to achieve the transfer of ink, and accelerated the process. Typically used for texts, the invention and spread of the printing press was one of the most influential events in the second millennium.

The printing press with movable type was invented in East Asia, for a complex writing system, circa 1234. The production of sorts (individual letters of type) was slow. Two centuries later, around 1440, the printing press was introduced into the Holy Roman Empire by the German Johannes Gutenberg, based on existing screw presses. Gutenberg, a goldsmith by profession, developed a printing system, by adapting existing technologies to printing purposes, as well as making inventions of his own. His newly devised hand mould made possible the precise and rapid creation of metal movable type in large quantities. Movable type had been hitherto unknown in Europe. In Europe, the two inventions, the hand mould and the printing press, together drastically reduced the cost of printing books and other documents, particularly in short print runs.

The printing press spread within several decades to over two hundred cities in a dozen European countries. By 1500, printing presses in operation throughout Western Europe had already produced more than twenty million volumes. In the 16th century, with presses spreading further afield, their output rose tenfold to an estimated 150 to 200 million copies. The operation of a press became synonymous with the enterprise of printing, and lent its name to a new branch of media, "the press".

In Renaissance Europe, the arrival of mechanical movable type printing introduced the era of mass communication, which permanently altered the structure of society. The relatively unrestricted circulation of information and (revolutionary) ideas transcended borders, captured the masses in the Reformation and threatened the power of political and religious authorities. The sharp increase in literacy broke the monopoly of the literate elite on education and learning and bolstered the emerging middle class. Across Europe, the increasing cultural self-awareness of its peoples led to the rise of proto-nationalism, and accelerated by the development of European vernacular languages, to the detriment of Latin's status as lingua franca. In the 19th century, the replacement of the hand-operated Gutenberg-style press by steam-powered rotary presses allowed printing on an industrial scale.


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History

Economic conditions and intellectual climate

The rapid economic and socio-cultural development of late medieval society in Europe created favorable intellectual and technological conditions for Gutenberg's improved version of the printing press: the entrepreneurial spirit of emerging capitalism increasingly made its impact on medieval modes of production, fostering economic thinking and improving the efficiency of traditional work-processes. The sharp rise of medieval learning and literacy amongst the middle class led to an increased demand for books which the time-consuming hand-copying method fell far short of accommodating.

Technological factors

Technologies preceding the press that led to the press's invention included: manufacturing of paper, development of ink, woodblock printing, and distribution of eyeglasses. At the same time, a number of medieval products and technological processes had reached a level of maturity which allowed their potential use for printing purposes. Gutenberg took up these far-flung strands, combined them into one complete and functioning system, and perfected the printing process through all its stages by adding a number of inventions and innovations of his own:

The screw press which allowed direct pressure to be applied on flat-plane was already of great antiquity in Gutenberg's time and was used for a wide range of tasks. Introduced in the 1st century AD by the Romans, it was commonly employed in agricultural production for pressing wine grapes and (olive) oil fruit, both of which formed an integral part of the mediterranean and medieval diet. The device was also used from very early on in urban contexts as a cloth press for printing patterns. Gutenberg may have also been inspired by the paper presses which had spread through the German lands since the late 14th century and which worked on the same mechanical principles.

Gutenberg adopted the basic design, thereby mechanizing the printing process. Printing, however, put a demand on the machine quite different from pressing. Gutenberg adapted the construction so that the pressing power exerted by the platen on the paper was now applied both evenly and with the required sudden elasticity. To speed up the printing process, he introduced a movable undertable with a plane surface on which the sheets could be swiftly changed.

The concept of movable type was not new in the 15th century; movable type printing had been invented in China during the Song dynasty, and was later used in Korea during the Goryeo Dynasty, where metal movable-type printing technology was developed in 1234. In Europe, sporadic evidence that the typographical principle, the idea of creating a text by reusing individual characters, was well understood and employed in pre-Gutenberg Europe had been cropping up since the 12th century and possibly before. The known examples range from Germany (Prüfening inscription) to England (letter tiles) to Italy. However, the various techniques employed (imprinting, punching and assembling individual letters) did not have the refinement and efficiency needed to become widely accepted.

Gutenberg greatly improved the process by treating typesetting and printing as two separate work steps. A goldsmith by profession, he created his type pieces from a lead-based alloy which suited printing purposes so well that it is still used today. The mass production of metal letters was achieved by his key invention of a special hand mould, the matrix. The Latin alphabet proved to be an enormous advantage in the process because, in contrast to logographic writing systems, it allowed the type-setter to represent any text with a theoretical minimum of only around two dozen different letters.

Another factor conducive to printing arose from the book existing in the format of the codex, which had originated in the Roman period. Considered the most important advance in the history of the book prior to printing itself, the codex had completely replaced the ancient scroll at the onset of the Middle Ages (500 AD). The codex holds considerable practical advantages over the scroll format; it is more convenient to read (by turning pages), is more compact, less costly, and, in particular, unlike the scroll, both recto and verso could be used for writing - and printing.

A fourth development was the early success of medieval papermakers at mechanizing paper manufacture. The introduction of water-powered paper mills, the first certain evidence of which dates to 1282, allowed for a massive expansion of production and replaced the laborious handcraft characteristic of both Chinese and Muslim papermaking. Papermaking centres began to multiply in the late 13th century in Italy, reducing the price of paper to one sixth of parchment and then falling further; papermaking centers reached Germany a century later.

Despite this it appears that the final breakthrough of paper depended just as much on the rapid spread of movable-type printing. It is notable that codices of parchment, which in terms of quality is superior to any other writing material, still had a substantial share in Gutenberg's edition of the 42-line Bible. After much experimentation, Gutenberg managed to overcome the difficulties which traditional water-based inks caused by soaking the paper, and found the formula for an oil-based ink suitable for high-quality printing with metal type.


Maps Printing press



Function and approach

A printing press, in its classical form, is a standing mechanism, ranging from 5 to 7 feet (1.5 to 2.1 m) long, 3 feet (0.91 m) wide, and 7 feet (2.1 m) tall. Type, small metal letters that have a raised letter on one end, is arranged into pages and placed in a frame to make a forme, which itself is placed onto a flat stone, 'bed,' or 'coffin.' The text is inked using two balls, pads mounted on handles. The balls were made of dog skin leather, because it has no pores, and stuffed with sheep's wool and were inked. This ink was then applied to the text evenly. One damp piece of paper was then taken from a heap of paper and placed on the tympan. The paper was damp as this lets the type 'bite' into the paper better. Small pins hold the paper in place. The paper is now held between a frisket and tympan (two frames covered with paper or parchment).

These are folded down, so that the paper lies on the surface of the inked type. The bed is rolled under the platen, using a windlass mechanism. A small rotating handle is used called the 'rounce' to do this, and the impression is made with a screw that transmits pressure through the platen. To turn the screw the long handle attached to it is turned. This is known as the bar or 'Devil's Tail.' In a well-set-up press, the springiness of the paper, frisket, and tympan caused the bar to spring back and raise the platen, the windlass turned again to move the bed back to its original position, the tympan and frisket raised and opened, and the printed sheet removed. Such presses were always worked by hand. After around 1800, iron presses were developed, some of which could be operated by steam power.


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Gutenberg's press

Johannes Gutenberg's work on the printing press began in approximately 1436 when he partnered with Andreas Dritzehn--a man who had previously instructed in gem-cutting--and Andreas Heilmann, owner of a paper mill. However, it was not until a 1439 lawsuit against Gutenberg that an official record existed; witnesses' testimony discussed Gutenberg's types, an inventory of metals (including lead), and his type molds.

Having previously worked as a professional goldsmith, Gutenberg made skillful use of the knowledge of metals he had learned as a craftsman. He was the first to make type from an alloy of lead, tin, and antimony, which was critical for producing durable type that produced high-quality printed books and proved to be much better suited for printing than all other known materials. To create these lead types, Gutenberg used what is considered one of his most ingenious inventions, a special matrix enabling the quick and precise molding of new type blocks from a uniform template. His type case is estimated to have contained around 290 separate letter boxes, most of which were required for special characters, ligatures, punctuation marks, and so forth.

Gutenberg is also credited with the introduction of an oil-based ink which was more durable than the previously used water-based inks. As printing material he used both paper and vellum (high-quality parchment). In the Gutenberg Bible, Gutenberg made a trial of coloured printing for a few of the page headings, present only in some copies. A later work, the Mainz Psalter of 1453, presumably designed by Gutenberg but published under the imprint of his successors Johann Fust and Peter Schöffer, had elaborate red and blue printed initials.


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The Printing Revolution

The Printing Revolution occurred when the spread of the printing press facilitated the wide circulation of information and ideas, acting as an "agent of change" through the societies that it reached. (Eisenstein (1980))

Mass production and spread of printed books

The invention of mechanical movable type printing led to a huge increase of printing activities across Europe within only a few decades. From a single print shop in Mainz, Germany, printing had spread to no less than around 270 cities in Central, Western and Eastern Europe by the end of the 15th century. As early as 1480, there were printers active in 110 different places in Germany, Italy, France, Spain, the Netherlands, Belgium, Switzerland, England, Bohemia and Poland. From that time on, it is assumed that "the printed book was in universal use in Europe".

In Italy, a center of early printing, print shops had been established in 77 cities and towns by 1500. At the end of the following century, 151 locations in Italy had seen at one time printing activities, with a total of nearly three thousand printers known to be active. Despite this proliferation, printing centres soon emerged; thus, one third of the Italian printers published in Venice.

By 1500, the printing presses in operation throughout Western Europe had already produced more than twenty million copies. In the following century, their output rose tenfold to an estimated 150 to 200 million copies.

European printing presses of around 1600 were capable of producing about 1,500 impressions per workday. By comparison, book printing in East Asia, did not use presses and was solely done by block printing.

Of Erasmus's work, at least 750,000 copies were sold during his lifetime alone (1469-1536). In the early days of the Reformation, the revolutionary potential of bulk printing took princes and papacy alike by surprise. In the period from 1518 to 1524, the publication of books in Germany alone skyrocketed sevenfold; between 1518 and 1520, Luther's tracts were distributed in 300,000 printed copies.

The rapidity of typographical text production, as well as the sharp fall in unit costs, led to the issuing of the first newspapers (see Relation) which opened up an entirely new field for conveying up-to-date information to the public.

Incunable are surviving pre-16th century print works which are collected by many of the libraries in Europe and North America.

Circulation of information and ideas

The printing press was also a factor in the establishment of a community of scientists who could easily communicate their discoveries through the establishment of widely disseminated scholarly journals, helping to bring on the scientific revolution. Because of the printing press, authorship became more meaningful and profitable. It was suddenly important who had said or written what, and what the precise formulation and time of composition was. This allowed the exact citing of references, producing the rule, "One Author, one work (title), one piece of information" (Giesecke, 1989; 325). Before, the author was less important, since a copy of Aristotle made in Paris would not be exactly identical to one made in Bologna. For many works prior to the printing press, the name of the author has been entirely lost.

Because the printing process ensured that the same information fell on the same pages, page numbering, tables of contents, and indices became common, though they previously had not been unknown. The process of reading also changed, gradually moving over several centuries from oral readings to silent, private reading. Over the next 200 years, the wider availability of printed materials led to a dramatic rise in the adult literacy rate throughout Europe.

The printing press was an important step towards the democratization of knowledge. Within 50 or 60 years of the invention of the printing press, the entire classical canon had been reprinted and widely promulgated throughout Europe (Eisenstein, 1969; 52). More people had access to knowledge both new and old, more people could discuss these works. Book production became more commercialised, and the first copyright laws were passed. On the other hand, the printing press was criticized for allowing the dissemination of information which may have been incorrect.

A second outgrowth of this popularization of knowledge was the decline of Latin as the language of most published works, to be replaced by the vernacular language of each area, increasing the variety of published works. The printed word also helped to unify and standardize the spelling and syntax of these vernaculars, in effect 'decreasing' their variability. This rise in importance of national languages as opposed to pan-European Latin is cited as one of the causes of the rise of nationalism in Europe.

A third consequence of popularization of printing was on the economy. The printing press was associated with higher levels of city growth. The publication of trade related manuals and books teaching techniques like double-entry bookkeeping increased the reliability of trade and led to the decline of merchant guilds and the rise of individual traders.


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Book printing as art form

For years, book printing was considered a true art form. Typesetting, or the placement of the characters on the page, including the use of ligatures, was passed down from master to apprentice. In Germany, the art of typesetting was termed the "black art", in allusion to the ink-covered printers. It has largely been replaced by computer typesetting programs, which make it easy to get similar results more quickly and with less physical labor. Some practitioners continue to print books the way Gutenberg did. For example, there is a yearly convention of traditional book printers in Mainz, Germany.

Some theorists, such as McLuhan, Eisenstein, Kittler, and Giesecke, see an "alphabetic monopoly" as having developed from printing, removing the role of the image from society. Other authors stress that printed works themselves are a visual medium. Certainly, modern developments in printing have revitalized the role of illustrations.


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Industrial printing presses

At the dawn of the Industrial Revolution, the mechanics of the hand-operated Gutenberg-style press were still essentially unchanged, although new materials in its construction, amongst other innovations, had gradually improved its printing efficiency. By 1800, Lord Stanhope had built a press completely from cast iron which reduced the force required by 90%, while doubling the size of the printed area. With a capacity of 480 pages per hour, the Stanhope press doubled the output of the old style press. Nonetheless, the limitations inherent to the traditional method of printing became obvious.

Two ideas altered the design of the printing press radically: First, the use of steam power for running the machinery, and second the replacement of the printing flatbed with the rotary motion of cylinders. Both elements were for the first time successfully implemented by the German printer Friedrich Koenig in a series of press designs devised between 1802 and 1818. Having moved to London in 1804, Koenig soon met Thomas Bensley and secured financial support for his project in 1807. Patented in 1810, Koenig had designed a steam press "much like a hand press connected to a steam engine." The first production trial of this model occurred in April 1811. He produced his machine with assistance from German engineer Andreas Friedrich Bauer.

Koenig and Bauer sold two of their first models to The Times in London in 1814, capable of 1,100 impressions per hour. The first edition so printed was on 28 November 1814. They went on to perfect the early model so that it could print on both sides of a sheet at once. This began the long process of making newspapers available to a mass audience (which in turn helped spread literacy), and from the 1820s changed the nature of book production, forcing a greater standardization in titles and other metadata. Their company Koenig & Bauer AG is still one of the world's largest manufacturers of printing presses today.

Rotary press

The steam powered rotary printing press, invented in 1843 in the United States by Richard M. Hoe, allowed millions of copies of a page in a single day. Mass production of printed works flourished after the transition to rolled paper, as continuous feed allowed the presses to run at a much faster pace.

By the late 1930s or early 1940s, rotary presses had increased substantially in efficiency: a model by Platen Printing Press was capable of performing 2,500 to 3,000 impressions per hour.

Also, in the middle of the 19th century, there was a separate development of jobbing presses, small presses capable of printing small-format pieces such as billheads, letterheads, business cards, and envelopes. Jobbing presses were capable of quick set-up (average setup time for a small job was under 15 minutes) and quick production (even on treadle-powered jobbing presses it was considered normal to get 1,000 impressions per hour [iph] with one pressman, with speeds of 1,500 iph often attained on simple envelope work). Job printing emerged as a reasonably cost-effective duplicating solution for commerce at this time.


How the Printing Press Changed the World | PrintRunner Blog
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Gallery


Rotary Printing Press â€
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See also

General
  • Imprimatur
  • Printing
  • Typography
Printing presses
  • Adana Printing Presses
  • Albion press
  • Columbian Printing Press
  • Flexography
  • Vertical print press
Other inventions
  • Color printing
  • Lithography
  • Offset printing
  • Desktop publishing
  • Electronic publishing
  • Computer printer
  • Composing stick

Changing the World- The Printing Press · Manchester Historian
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Notes


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References

On the effects of the printing press

  • Boruchoff, David A. (2012), "The Three Greatest Inventions of Modern Times: An Idea and Its Public", in Klaus Hock; Gesa Mackenthun, Entangled Knowledge: Scientific Discourses and Cultural Difference, Münster: Waxmann, pp. 133-163, ISBN 978-3-8309-2729-7 
  • Buringh, Eltjo; van Zanden, Jan Luiten (2009), "Charting the "Rise of the West": Manuscripts and Printed Books in Europe, A Long-Term Perspective from the Sixth through Eighteenth Centuries", The Journal of Economic History, 69 (2): 409-445, doi:10.1017/s0022050709000837 
  • Eisenstein, Elizabeth L. (1980), The Printing Press as an Agent of Change, Cambridge University Press, ISBN 0-521-29955-1 
  • Eisenstein, Elizabeth L. (2005), The Printing Revolution in Early Modern Europe (2nd, rev. ed.), Cambridge University Press, ISBN 0-521-60774-4  [More recent, abridged version]
  • Febvre, Lucien; Martin, Henri-Jean (1997), The Coming of the Book: The Impact of Printing 1450-1800, London: Verso, ISBN 1-85984-108-2 
  • Man, John (2002), The Gutenberg Revolution: The Story of a Genius and an Invention that Changed the World, London: Headline Review, ISBN 978-0-7472-4504-9 
  • McLuhan, Marshall (1962), The Gutenberg Galaxy: The Making of Typographic Man (1st ed.), University of Toronto Press, ISBN 978-0-8020-6041-9 

Technology of printing

  • Bechtel, G. (1992), Gutenberg et l'invention de l'imprimerie, Paris: Fayard, ISBN 2-213-02865-6 
  • Bolza, Hans (1967), "Friedrich Koenig und die Erfindung der Druckmaschine", Technikgeschichte, 34 (1): 79-89 
  • Borsa, Gedeon (1976), "Druckorte in Italien vor 1601", Gutenberg-Jahrbuch: 311-314 
  • Borsa, Gedeon (1977), "Drucker in Italien vor 1601", Gutenberg-Jahrbuch: 166-169 
  • Brekle, Herbert E. (1995), "Eine weitere Spur einer typographischen Werkstatt beim Kloster Prüfening im 12. Jahrhundert", Gutenberg-Jahrbuch, 70: 23-26 
  • Brekle, Herbert E. (1997), "Das typographische Prinzip. Versuch einer Begriffsklärung", Gutenberg-Jahrbuch, 72: 58-63 
  • Brekle, Herbert E. (2005), Die Prüfeninger Weihinschrift von 1119. Eine paläographisch-typographische Untersuchung (brief summary), Regensburg: Scriptorium Verlag für Kultur und Wissenschaft, ISBN 3-937527-06-0 
  • Burns, Robert I. (1996), "Paper comes to the West, 800-1400", in Lindgren, Uta, Europäische Technik im Mittelalter. 800 bis 1400. Tradition und Innovation (4th ed.), Berlin: Gebr. Mann Verlag, pp. 413-422, ISBN 3-7861-1748-9 
  • Childress, Diana (2008), Johannes Gutenberg and the Printing Press, Minneapolis: Twenty-First Century Books, ISBN 978-0-7613-4024-9 
  • Ch'on Hye-bong: "Typography in Korea", Koreana, Vol. 7, No. 2 (1993), pp. 10-19
  • Stearns, Peter N (ed.). Encyclopedia of World History (6 ed.). The Houghton Mifflin Company/ Bartleby.com. Citation 
  • Crompton, Samuel Willard (2004), The Printing Press. Transforming Power of Technology, Philadelphia: Chelsea House Publishers, ISBN 0-7910-7451-X 
  • Duchesne, Ricardo (2006), "Asia First?", The Journal of the Historical Society, 6 (1): 69-91, doi:10.1111/j.1540-5923.2006.00168.x 
  • Fontaine, Jean-Paul (1999), L'aventure du livre: Du manuscrit medieval a nos jours, Paris: Bibliothèque de l'image 
  • Gerhardt, Claus W. (1971), "Warum wurde die Gutenberg-Presse erst nach über 350 Jahren durch ein besseres System abgelöst?", Gutenberg-Jahrbuch: 43-57 
  • Gerhardt, Claus W. (1978), "Besitzt Gutenbergs Erfindung heute noch einen Wert?", Gutenberg-Jahrbuch: 212-217 
  • Hanebutt-Benz, Eva-Maria (2000), "Gutenbergs Erfindungen", Gutenberg. Aventur und Kunst: Vom Geheimunternehmen zur ersten Medienrevolution, Mainz: Stadt Mainz, pp. 158-189 
  • Hellinga, Lotte (2007), "The Gutenberg Revolutions", in Eliot, Simon; Rose, Jonathan, A Companion to the History of the Book, Blackwell Publishing, pp. 207-220, ISBN 978-1-4051-2765-3 
  • Hind, Arthur M., An Introduction to a History of Woodcut, Houghton Mifflin Co. 1935 (in USA), reprinted Dover Publications, 1963 ISBN 0-486-20952-0
  • Issawi, Charles (1980), "Europe, the Middle East and the Shift in Power: Reflections on a Theme by Marshall Hodgson", Comparative Studies in Society and History, 22 (4): 487-504, doi:10.1017/s001041750000949x 
  • Kapr, Albert (1996), Johannes Gutenberg. The Man and his Invention, Aldershot: Scolar, ISBN 1-85928-114-1 
  • Koch, Walter (1994), Literaturbericht zur mittelalterlichen und neuzeitlichen Epigraphik (1985-1991), Monumenta Germaniae Historica: Hilfsmittel, 14, München, p. 213, ISBN 978-3-88612-114-4 
  • Lehmann-Haupt, Hellmut (1940), "Englische Holzstempelalphabete des XIII. Jahrhunderts", Gutenberg-Jahrbuch: 93-97 
  • Lipinsky, Angelo (1986), "La pala argentea del Patriarca Pellegrino nella Collegiata di Cividale e le sue iscrizioni con caratteri mobili", Ateneo Veneto, 24: 75-80 
  • Lucas, Adam Robert (2005), "Industrial Milling in the Ancient and Medieval Worlds. A Survey of the Evidence for an Industrial Revolution in Medieval Europe", Technology and Culture, 46 (1): 1-30, doi:10.1353/tech.2005.0026 
  • Mahnke, Helmut (2009), Der kunstreiche Johannes Gutenberg und die Frühzeit der Druckkunst, Norderstedt: Books on Demand, ISBN 978-3-8370-5041-7 
  • Needham, Joseph: "Science and Civilisation in China", Physics and Physical Technology (Vol. 4), Mechanical Engineering (Part 2), Cambridge University Press, 1965
  • Onken, Björn (2009), "Presses", in Cancik, Hubert; Schneider, Helmuth, Brill's New Pauly 
  • Encyclopædia Britannica 2006: "Printing". Retrieved 27 November 2006
  • Roberts, Colin H.; Skeat, T. C. (1983), The Birth of the Codex, London: Oxford University Press, ISBN 0-19-726024-1 
  • Schneider, Helmuth (2007), "Technology", in Scheidel, Walter; Morris, Ian; Saller, Richard, The Cambridge Economic History of the Greco-Roman World, Cambridge University Press, pp. 144-171, ISBN 978-0-521-78053-7 
  • Schulte, Alfred (1939), "Papierpresse, Druckerpresse und Kelter", Gutenberg-Jahrbuch: 52-56 
  • Thompson, Susan (1978), "Paper Manufacturing and Early Books", Annals of the New York Academy of Sciences, 314: 167-176, doi:10.1111/j.1749-6632.1978.tb47791.x 
  • Tsien, Tsuen-Hsuin (1985), Paper and Printing, Science and Civilisation in China, Chemistry and Chemical Technology (Vol. 5, Part 1), Cambridge University Press 
  • Weber, Johannes (2006), "Strassburg, 1605: The Origins of the Newspaper in Europe", German History, 24 (3): 387-412, doi:10.1191/0266355406gh380oa 
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  • Widmann, Hans (1974), "Der koreanische Buchdruck und Gutenbergs Erfindung", Gutenberg-Jahrbuch: 32-34 
  • Wolf, Hans-Jürgen (1974), Geschichte der Druckpressen (1st ed.), Frankfurt/Main: Interprint 

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External links

  • Centre for the History of the Book
  • Gutenberg printing - Photos of Incunabula and the Gutenberg Bible (1455)
  • Internet Archive: Printing (1947) - a film from the Prelinger Archives explaining the printing industry

Source of the article : Wikipedia

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