Ceramic movable type printed in 1103 (
Northern Song dynasty) by ceramic movable type. Found in Baixiang Pagoda, Wenzhou.
Bi Sheng () (990–1051) developed the first known movable-type system for printing in China around 1040 AD during the
Northern Song dynasty, using ceramic materials. As described by the Chinese scholar
Shen Kuo (沈括) (1031–1095): After his death, ceramic movable type may have spread to the Tangut kingdom of
Western Xia, where a Buddhist text known as the
Vimalakirti Nirdesa Sutra was found in modern
Wuwei,
Gansu, dating to the reign of
Emperor Renzong of Western Xia (r. 1125-1193). The text features traits that have been identified as hallmarks of ceramic movable type such as the hollowness of the character strokes and deformed and broken strokes. The ceramic movable-type also passed onto Bi Sheng's descendants. The next mention of movable type occurred in 1193 when a Southern Song chief counselor, Zhou Bida (), attributed the movable-type method of printing to
Shen Kuo. However Shen Kuo did not invent the movable type but credited it to Bi Sheng in his
Dream Pool Essays. Zhou used ceramic type to print print the
Yutang Zaji (Notes of the Jade Hall) in 1193. Further evidence of the spread of movable type appears in the
Binglü Xiansheng Wenji (Collected Works of Master Palm) by Deng Su (1091-1132), which references the use of metal frames in movable type printing to print poems. The ceramic movable type was mentioned by
Kublai Khan's councilor Yao Shu (1203–1280), who convinced his pupil
Yang Gu to print language primers using this method. The claim that Bi Sheng's ceramic types were "fragile" and "not practical for large-scale printing" and "short lived" were refuted by later experiments. Bao Shicheng (1775–1885) wrote that fired clay moveable type was "as hard and tough as horn"; experiments show that clay type, after being fired in a kiln, becomes hard and difficult to break, such that it remains intact after being dropped from a height of two metres onto a marble floor. The length of ceramic movable types in China was 1 to 2 centimetres, not 2 mm, thus hard as horn. But similar to metal type, ceramic type did not hold the water-based Chinese calligraphic ink well, and had an added disadvantage of uneven matching of the type which could sometimes result from the uneven changes in size of the type during the firing process. Ceramic movable type was used as late as 1844 in China from the Song dynasty through to the Qing dynasty.
Wooden movable type 's book published in 1313
Bi Sheng (990–1051) of the
Song dynasty also pioneered the use of
wooden movable type around 1040 AD, as described by the Chinese scholar
Shen Kuo (1031–1095). However, this technology was abandoned in favour of clay movable types due to the presence of wood grains and the unevenness of the wooden type after being soaked in ink. A number of books printed in
Tangut script during the
Western Xia (1038–1227) period are known, of which the
Auspicious Tantra of All-Reaching Union, which was discovered in the ruins of
Baisigou Square Pagoda in 1991 is believed to have been printed sometime during the reign of
Emperor Renzong of Western Xia (1139–1193). It is considered by many Chinese experts to be the earliest extant example of a book printed using wooden movable type. In 1298,
Wang Zhen (), a
Yuan dynasty governmental official of
Jingde County,
Anhui Province, China, re-invented a method of making movable wooden types. He made more than 30,000 wooden movable types and printed 100 copies of
Records of Jingde County (), a book of more than 60,000
Chinese characters. Soon afterwards, he summarized his invention in his book
A method of making moveable wooden types for printing books. Although the wooden type was more durable under the mechanical rigors of handling, repeated printing wore down the character faces, and the types could only be replaced by carving new pieces. This system was later enhanced by pressing wooden blocks into sand and casting metal types from the depression in copper, bronze, iron or tin. This new method overcame many of the shortcomings of woodblock printing. Rather than manually carving an individual block to print a single page, movable type printing allowed for the quick assembly of a page of text. Furthermore, these new, more compact type fonts could be reused and stored. with the country producing large-scale bronze-plate-printed paper money and formal official documents issued by the
Jin (1115–1234) and
Southern Song (1127–1279) dynasties with embedded bronze metal types for anti-counterfeit markers. Such paper-money printing might date back to the 11th-century
jiaozi of
Northern Song (960–1127). The 1298 book
Zao Huozi Yinshufa () by the
Yuan dynasty (1271–1368) official
Wang Zhen mentions
tin movable type, used probably since the
Southern Song dynasty (1127–1279), but this was largely experimental. It was unsatisfactory due to its incompatibility with the
inking process. During the
Mongol Empire (1206–1405), printing using movable type spread to the
Uyghurs of Central Asia. They used movable type for their script with some Chinese words printed between the pages—strong evidence that the books were printed in China. During the
Ming dynasty (1368–1644),
Hua Sui in 1490 used bronze type in printing books. While these books have not survived,
Jikji, printed in
Korea in 1377, is believed to be the world's oldest metallic movable type-printed book. However, 2022 research suggests that a copy of the
Song of Enlightenment with Commentaries by Buddhist Monk
Nammyeong Cheon, printed 138 years before
Jikji in 1239
, may have been printed in metal type. The Asian Reading Room of the
Library of Congress in Washington, D.C., displays examples of this metal type. Commenting on the invention of metallic types by Koreans, French scholar Henri-Jean Martin described this as "[extremely similar] to Gutenberg's". However, Korean movable metal type printing differed from European printing in the materials used for the type, punch, matrix, mould and in method of making an impression. The techniques for bronze casting, used at the time for making coins (as well as bells and statues) were adapted to making metal type. The
Joseon dynasty scholar Seong Hyeon (성현, 成俔, 1439–1504) records the following description of the Korean font-casting process: A "
Confucian prohibition on the commercialization of printing" obstructed the proliferation of movable type, restricting the distribution of books produced using the new method to the government. Scholarly debate and speculation has occurred as to whether Eastern movable type spread to Europe between the late 14th century and early 15th centuries. However, Joseph P. McDermott claimed that "No text indicates the presence or knowledge of any kind of Asian movable type or movable type imprint in Europe before 1450. The material evidence is even more conclusive."
Europe in the 15th century: Within several decades around 270 European towns took up movable-type printing. to 1800 According to a tradition in
Feltre and
Lombardy, an Italian engraver named
Panfilo Castaldi (1398–1490) introduced movable type to Europe after having seen Chinese books brought by
Marco Polo. Inspired by the Chinese prints, Castaldi started using wooden movable type and he printed several broadsides at
Venice in 1426. The tradition tracing movable type to Castaldi also states that
Johannes Gutenberg's wife saw Chinese printing blocks in Venice, which inspired their own invention of printing. This story was recorded by Robert Curzon citing a news article written by a doctor from Feltre dated 1843.
Henry Yule (1820–1889), who translated Marco Polo's works, viewed the story with skepticism but believed that Chinese wood blocks could have been transferred via travelers. Johannes Gutenberg of the
Free City of Mainz of the
Holy Roman Empire invented the
printing press, using a metal movable type system. Gutenberg, as a
goldsmith, knew techniques of
cutting punches for making coins from moulds. Between 1436 and 1450 he developed hardware and techniques for casting letters from
matrices using a device called the
hand mould. Gutenberg and his associates developed oil-based inks ideally suited to printing with a
press on paper, and the first Latin
typefaces. His method of casting type may have differed from the hand-mould used in subsequent decades. Detailed analysis of the type used in his 42-line Bible has revealed irregularities in some of the characters that cannot be attributed to ink spread or type wear under the pressure of the press. Scholars conjecture that the type pieces may have been cast from a series of matrices made with a series of individual stroke punches, producing many different versions of the same glyph. It has also been suggested that the method used by Gutenberg involved using a single punch to make a mould, but the mould was such that the process of taking the type out disturbed the casting, causing variants and anomalies, and that the punch-matrix system came into use possibly around the 1470s. This raises the possibility that the development of movable type in the West may have been progressive rather than a single innovation. Gutenberg's movable-type printing system spread rapidly across Europe, from the single Mainz printing press in 1457 to 110 presses by 1480, with 50 of them in
Italy.
Venice quickly became the centre of typographic and printing activity. Significant contributions came from
Nicolas Jenson,
Francesco Griffo,
Aldus Manutius, and other printers of late 15th-century Europe. Gutenberg's movable type printing system offered a number of advantages over previous movable type techniques. The lead-antimony-tin alloy used by Gutenberg had a much lower melting temperature than bronze, making it easier to cast the type and aiding the use of reusable metal matrix moulds instead of the expendable sand and clay moulds. The use of
antimony alloy increased hardness of the type compared to lead and tin for improved durability of the type. The reusable metal matrix allowed a single experienced worker to produce 4,000 to 5,000 individual types a day, while Wang Chen had artisans working two years to make 60,000 wooden types. == Type-founding ==