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{{distinguish|Dot matrix printing}}
{{distinguish|Dot matrix printing}}
[[Image:Jannon Romain de l'Université matrices.jpg|thumb|Matrices created by [[Jean Jannon]] around 1640. The [[Garamond]] typeface installed with most [[Microsoft]] software is based on these designs.<ref name="Jannon FMOC">{{cite web|title=Jannon|url=http://www.garamond.culture.fr/en/page/jannon_the_roman_of_the_imprimerie_royale|publisher=French Ministry of Culture}}</ref><ref>{{cite web|title=Monotype Garamond|url=http://www.fonts.com/font/monotype/monotype-garamond|website=Fonts.com|publisher=Monotype|accessdate=4 July 2015}}</ref><ref>{{cite web|title=Garamond|url=https://www.microsoft.com/typography/fonts/family.aspx?FID=28|publisher=Microsoft|accessdate=4 July 2015}}</ref>]]
[[Image:Jannon Romain de l'Université matrices.jpg|thumb|Matrices created by [[Jean Jannon]] around 1640. The [[Garamond]] typeface installed with most [[Microsoft]] software is based on these designs.<ref name="Jannon FMOC">{{cite web|title=Jannon|url=http://www.garamond.culture.fr/en/page/jannon_the_roman_of_the_imprimerie_royale|publisher=French Ministry of Culture}}</ref><ref>{{cite web|title=Monotype Garamond|url=http://www.fonts.com/font/monotype/monotype-garamond|website=Fonts.com|publisher=Monotype|access-date=4 July 2015}}</ref><ref>{{cite web|title=Garamond|url=https://www.microsoft.com/typography/fonts/family.aspx?FID=28|publisher=Microsoft|access-date=4 July 2015}}</ref>]]
In the manufacture of [[metal type]] used in [[letterpress printing]], a '''matrix''' (from the Latin meaning ''womb'' or ''a female breeding animal'') is the mould used to cast a letter, known as a [[sort (typesetting)|sort]].<ref>{{cite book |last=Man |first=John |title=The Gutenberg Revolution: the story of a genius that changed the world |year=2002 |publisher=Headline |location=London |isbn=0-7472-4504-5 |page= |url-access=registration |url=https://archive.org/details/gutenbergrevolut0000manj }} {{page needed|date=July 2019}}</ref> Matrices for printing types were made of [[copper]].<ref name="Vinne1899">{{cite book|author=Theodore Low De Vinne|title=The Practice of Typography: A Treatise on the Processes of Type-making, the Point System, the Names, Sizes, Styles, and Prices of Plain Printing Types|url=https://books.google.com/books?id=18gDAAAAIAAJ&pg=PA101|year=1899|publisher=Century Company|pages=9–36}}</ref>
In the manufacture of [[metal type]] used in [[letterpress printing]], a '''matrix''' (from the Latin meaning ''womb'' or ''a female breeding animal'') is the mould used to cast a letter, known as a [[sort (typesetting)|sort]].<ref>{{cite book |last=Man |first=John |title=The Gutenberg Revolution: the story of a genius that changed the world |year=2002 |publisher=Headline |location=London |isbn=0-7472-4504-5 |url-access=registration |url=https://archive.org/details/gutenbergrevolut0000manj }} {{page needed|date=July 2019}}</ref> Matrices for printing types were made of [[copper]].<ref name="Vinne1899">{{cite book|author=Theodore Low De Vinne|title=The Practice of Typography: A Treatise on the Processes of Type-making, the Point System, the Names, Sizes, Styles, and Prices of Plain Printing Types|url=https://books.google.com/books?id=18gDAAAAIAAJ&pg=PA101|year=1899|publisher=Century Company|pages=9–36}}</ref>


However, in [[printmaking]] the matrix is whatever is used, with ink, to hold the image that makes up the print, whether a plate in [[etching]] and [[engraving]] or a woodblock in [[woodcut]].
However, in [[printmaking]] the matrix is whatever is used, with ink, to hold the image that makes up the print, whether a plate in [[etching]] and [[engraving]] or a woodblock in [[woodcut]].
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In letterpress or "cold metal" typesetting, used from the beginning of printing to the late nineteenth century, the matrix of one letter is inserted into the bottom of an adjustable-width [[hand mould]], the mould is locked and molten [[type metal]] is poured into a straight-sided vertical cavity above the matrix. When the metal has cooled and solidified the mould is unlocked and the newly cast metal sort is removed. The matrix can then be reused to produce more copies of the sort.<ref name="meggs58-69">Meggs, Philip B. ''A History of Graphic Design.'' John Wiley & Sons, Inc. 1998. (pp 58–69) {{ISBN|0-471-29198-6}}</ref> The sorts could then be cleaned up and sent to the printer. In a low-pressure hand mould matrices are long-lasting and so could be used many times.<ref name="Memories of an Apprentice Typefounder">{{cite journal|last1=Mosley|first1=James|title=Memories of an Apprentice Typefounder|journal=Matrix|volume=21|date=2001|pages=1–13}}</ref>
In letterpress or "cold metal" typesetting, used from the beginning of printing to the late nineteenth century, the matrix of one letter is inserted into the bottom of an adjustable-width [[hand mould]], the mould is locked and molten [[type metal]] is poured into a straight-sided vertical cavity above the matrix. When the metal has cooled and solidified the mould is unlocked and the newly cast metal sort is removed. The matrix can then be reused to produce more copies of the sort.<ref name="meggs58-69">Meggs, Philip B. ''A History of Graphic Design.'' John Wiley & Sons, Inc. 1998. (pp 58–69) {{ISBN|0-471-29198-6}}</ref> The sorts could then be cleaned up and sent to the printer. In a low-pressure hand mould matrices are long-lasting and so could be used many times.<ref name="Memories of an Apprentice Typefounder">{{cite journal|last1=Mosley|first1=James|title=Memories of an Apprentice Typefounder|journal=Matrix|volume=21|date=2001|pages=1–13}}</ref>


[[File:Matrixcase-bembo-16pts.jpg|thumb|right|A composition case loaded with matrices for a [[font]], used to cast metal type on a [[Monotype System|Monotype composition casting machine]] in the [[hot metal typesetting]] period. The matrices were stamped with punches [[Machining|machined]] using [[pantographs]] from large working drawings and intermediate copper patterns, and used to cast type under the control of a keyboard.<ref name="Monotype Recorder matrices">{{cite journal|title=Monotype matrices and moulds in the making|journal=Monotype Recorder|date=1956|volume=40|issue=3|url=http://www.metaltype.co.uk/downloads/mr/mr_40_3.pdf}}</ref> This gave much cleaner results than pre-pantograph punches, which had to be hand-carved at the size of the desired letter, and allowed fonts to be issued in more sizes faster than was previously possible.<ref name="Printing the Times">{{cite web|last1=Morison|first1=Stanley|author-link=Stanley Morison|title=Printing the Times|url=http://www.eyemagazine.com/feature/article/stanley-morison-changing-the-times|website=Eye|accessdate=28 July 2015}}</ref> The font is [[Bembo]].]]
[[File:Matrixcase-bembo-16pts.jpg|thumb|right|A composition case loaded with matrices for a [[font]], used to cast metal type on a [[Monotype System|Monotype composition casting machine]] in the [[hot metal typesetting]] period. The matrices were stamped with punches [[Machining|machined]] using [[pantographs]] from large working drawings and intermediate copper patterns, and used to cast type under the control of a keyboard.<ref name="Monotype Recorder matrices">{{cite journal|title=Monotype matrices and moulds in the making|journal=Monotype Recorder|date=1956|volume=40|issue=3|url=http://www.metaltype.co.uk/downloads/mr/mr_40_3.pdf}}</ref> This gave much cleaner results than pre-pantograph punches, which had to be hand-carved at the size of the desired letter, and allowed fonts to be issued in more sizes faster than was previously possible.<ref name="Printing the Times">{{cite web|last1=Morison|first1=Stanley|author-link=Stanley Morison|title=Printing the Times|url=http://www.eyemagazine.com/feature/article/stanley-morison-changing-the-times|website=Eye|access-date=28 July 2015}}</ref> The font is [[Bembo]].]]
In the [[hot metal typesetting]] systems of the later years of metal type printing, from the late nineteenth century onwards, new type is cast for each job under the control of a keyboard. The matrix or mats for a complete font are loaded into a matrix-case and inserted into a casting machine, which casts the required sorts (or, in a Linotype machine, a solid block for each line) for a [[Page (paper)|page]] composition automatically, often from a paper reel.
In the [[hot metal typesetting]] systems of the later years of metal type printing, from the late nineteenth century onwards, new type is cast for each job under the control of a keyboard. The matrix or mats for a complete font are loaded into a matrix-case and inserted into a casting machine, which casts the required sorts (or, in a Linotype machine, a solid block for each line) for a [[Page (paper)|page]] composition automatically, often from a paper reel.


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The standard method to make a matrix was to drive a [[punchcutter|steel punch]] in the shape of the type to be made into soft copper.<ref name="Letters of Credit">{{cite book|last1=Tracy|first1=Walter|author-link=Walter Tracy|title=Letters of Credit|pages=32–40}}</ref> The matrix could then be cleaned up and cut down to the width of the letter to be cast: this is called "justification" and sets the width of the letter when cast. An matrix that has not yet been justified is called a "strike". Adjustment of the matrix had to be done very carefully to ensure even flow of letters on the page.
The standard method to make a matrix was to drive a [[punchcutter|steel punch]] in the shape of the type to be made into soft copper.<ref name="Letters of Credit">{{cite book|last1=Tracy|first1=Walter|author-link=Walter Tracy|title=Letters of Credit|pages=32–40}}</ref> The matrix could then be cleaned up and cut down to the width of the letter to be cast: this is called "justification" and sets the width of the letter when cast. An matrix that has not yet been justified is called a "strike". Adjustment of the matrix had to be done very carefully to ensure even flow of letters on the page.


Large typefaces, or wide designs such as emblems or medallions, were never very easily produced by punching since it was hard to drive large punches evenly. Early alternative methods used included printing from woodblocks, 'dabbing', where wood-blocks were punched into metal softened by heating, or carefully casting type or matrices in moulds made of softer materials than copper such as sand, clay, or punched lead.<ref name="Big brass matrices 1">{{cite web|last1=Mosley|first1=James|title=Big brass matrices: a mystery resolved?|url=http://typefoundry.blogspot.co.uk/2007/03/brass-matrices-mystery-resolved.html|website=Type Foundry (blog)|accessdate=5 October 2017}}</ref><ref name="Big brass matrices 2">{{cite web|last1=Mosley|first1=James|title=Big brass matrices again: the Enschedé ‘Chalcographia’ type|url=http://typefoundry.blogspot.co.uk/2008/03/big-brass-matrices-again-ensched.html|website=Type Foundry (blog)|accessdate=5 October 2017}}</ref><ref name="Mosley Dabbing">{{cite web|last1=Mosley|first1=James|title=Dabbing, abklatschen, clichage...|url=http://typefoundry.blogspot.co.uk/2006/01/dabbing-abklatschen-clichage.html|website=Type Foundry (blog)|accessdate=5 October 2017}}</ref><ref name="Ornamented types: a prospectus">{{cite web|title=Ornamented types: a prospectus|url=http://imimprimit.com/wp-content/uploads/Prospectus-all-cropped-small.pdf|publisher=imimprimit|accessdate=12 December 2015|url-status=dead|archiveurl=https://web.archive.org/web/20151222083754/http://imimprimit.com/wp-content/uploads/Prospectus-all-cropped-small.pdf|archivedate=22 December 2015}}</ref> One solution to the problem in the early nineteenth century was William Caslon IV's riveted "Sanspareil" matrices formed by cut-out from layered sheets. The problem was ultimately solved in the mid-nineteenth century by new technologies, electrotyping and pantograph engraving, the latter both for wood type and then for matrices.
Large typefaces, or wide designs such as emblems or medallions, were never very easily produced by punching since it was hard to drive large punches evenly. Early alternative methods used included printing from woodblocks, 'dabbing', where wood-blocks were punched into metal softened by heating, or carefully casting type or matrices in moulds made of softer materials than copper such as sand, clay, or punched lead.<ref name="Big brass matrices 1">{{cite web|last1=Mosley|first1=James|title=Big brass matrices: a mystery resolved?|url=http://typefoundry.blogspot.co.uk/2007/03/brass-matrices-mystery-resolved.html|website=Type Foundry (blog)|access-date=5 October 2017}}</ref><ref name="Big brass matrices 2">{{cite web|last1=Mosley|first1=James|title=Big brass matrices again: the Enschedé ‘Chalcographia’ type|url=http://typefoundry.blogspot.co.uk/2008/03/big-brass-matrices-again-ensched.html|website=Type Foundry (blog)|access-date=5 October 2017}}</ref><ref name="Mosley Dabbing">{{cite web|last1=Mosley|first1=James|title=Dabbing, abklatschen, clichage...|url=http://typefoundry.blogspot.co.uk/2006/01/dabbing-abklatschen-clichage.html|website=Type Foundry (blog)|access-date=5 October 2017}}</ref><ref name="Ornamented types: a prospectus">{{cite web|title=Ornamented types: a prospectus|url=http://imimprimit.com/wp-content/uploads/Prospectus-all-cropped-small.pdf|publisher=imimprimit|access-date=12 December 2015|url-status=dead|archive-url=https://web.archive.org/web/20151222083754/http://imimprimit.com/wp-content/uploads/Prospectus-all-cropped-small.pdf|archive-date=22 December 2015}}</ref> One solution to the problem in the early nineteenth century was William Caslon IV's riveted "Sanspareil" matrices formed by cut-out from layered sheets. The problem was ultimately solved in the mid-nineteenth century by new technologies, electrotyping and pantograph engraving, the latter both for wood type and then for matrices.


From the nineteenth century additional technologies arrived to make matrices. The first was [[electrotyping]] from the 1840s, which forms a copper matrix around a pattern letter by [[Electroplating|electrodeposition]] of copper.{{efn|One problem with electrotyping is that the newly formed letter is slightly smaller than the original letter - a shrinkage of about 0.0038%. While not a great problem for a single electrotyping, the effect could multiply in letters repeatedly copied. According to [[Justin Howes]], sometimes type to be electrotyped was squashed slightly in a press or filed down to compensate before it was duplicated.<ref name="Caslon's punches and matrices Howes">{{cite journal|last1=Howes|first1=Justin|title=Caslon's punches and matrices|journal=Matrix|date=2000|volume=20|pages=1–7}}</ref>}} The advantage of electrotyping was that the pattern letter did not have to be out of hard steel, so it could be cut in soft lead alloy much faster than a punch could. This allowed an explosion in the number of [[display typeface]]s available.<ref name="CR Patrix Cutting and Matrix Electroforming">{{cite web|last1=MacMillan|first1=David|title=Patrix Cutting and Matrix Electroforming: A Survey of the Data|url=https://circuitousroot.com/artifice/letters/press/typemaking/mats/patrix-and-electroforming/survey-of-data/index.html|website=Circuitous Root|accessdate=6 October 2017}}</ref> It also allowed printers to form matrices for types for which they did not have matrices, or duplicate matrices when they had no punches, and accordingly was less honourably used to pirate typefaces from other foundries.<ref name="CR Patrix Cutting and Matrix Electroforming" /> The technology was most commonly used for larger and more esoteric [[display typeface]]s, with punched matrices preferred for body text types.<ref name="CR Patrix Cutting and Matrix Electroforming" /> An additional technology from the 1880s was the direct engraving of punches (or matrices, especially with larger fonts) using a [[pantograph]] cutting machine, controlled by replicating hand movements at a smaller size.<ref name="Letters of Credit" />
From the nineteenth century additional technologies arrived to make matrices. The first was [[electrotyping]] from the 1840s, which forms a copper matrix around a pattern letter by [[Electroplating|electrodeposition]] of copper.{{efn|One problem with electrotyping is that the newly formed letter is slightly smaller than the original letter - a shrinkage of about 0.0038%. While not a great problem for a single electrotyping, the effect could multiply in letters repeatedly copied. According to [[Justin Howes]], sometimes type to be electrotyped was squashed slightly in a press or filed down to compensate before it was duplicated.<ref name="Caslon's punches and matrices Howes">{{cite journal|last1=Howes|first1=Justin|title=Caslon's punches and matrices|journal=Matrix|date=2000|volume=20|pages=1–7}}</ref>}} The advantage of electrotyping was that the pattern letter did not have to be out of hard steel, so it could be cut in soft lead alloy much faster than a punch could. This allowed an explosion in the number of [[display typeface]]s available.<ref name="CR Patrix Cutting and Matrix Electroforming">{{cite web|last1=MacMillan|first1=David|title=Patrix Cutting and Matrix Electroforming: A Survey of the Data|url=https://circuitousroot.com/artifice/letters/press/typemaking/mats/patrix-and-electroforming/survey-of-data/index.html|website=Circuitous Root|access-date=6 October 2017}}</ref> It also allowed printers to form matrices for types for which they did not have matrices, or duplicate matrices when they had no punches, and accordingly was less honourably used to pirate typefaces from other foundries.<ref name="CR Patrix Cutting and Matrix Electroforming" /> The technology was most commonly used for larger and more esoteric [[display typeface]]s, with punched matrices preferred for body text types.<ref name="CR Patrix Cutting and Matrix Electroforming" /> An additional technology from the 1880s was the direct engraving of punches (or matrices, especially with larger fonts) using a [[pantograph]] cutting machine, controlled by replicating hand movements at a smaller size.<ref name="Letters of Credit" />
{{clear}}
{{clear}}


=== {{anchor|duplex}} Duplexing ===
=== {{anchor|duplex}} Duplexing ===
[[File:Duplexed Linotype matrices regular and bold.jpg|thumb|Duplexed Linotype matrices for regular and bold styles.]]
[[File:Duplexed Linotype matrices regular and bold.jpg|thumb|Duplexed Linotype matrices for regular and bold styles.]]
A '''duplexed''' matrix with two sites for casting letters was common on Linotype machines. By switching the position of the matrices in the machine it was easy to switch between casting two styles in the same line, the characters of which would have identical width.<ref>{{cite book|last=Durbeck|first=Robert|title=Output Hardcopy Devices|url=https://books.google.com/books?id=s329hWFOqPUC&pg=PA502|year=2012|publisher=Elsevier|isbn=978-0-323-14674-6|page=502|quote= the fitting of letter shapes to certain available widths, “duplexing”, or the placing of a light and bold character on the same width}}</ref><ref>{{cite book|last=Byers|first=Steve|title=The Electronic Type Catalog|url=https://books.google.com/books?id=rztUAAAAMAAJ|year=1991|publisher=Bantam Books|isbn=978-0-553-35446-1|page=11|quote= both designs had to measure the same width. This was called duplexing. If an italic was to be paired, or duplexed, with a roman, the italic was redrawn and refitted to the width of the roman.}}</ref><ref>{{cite web |title=duplexing, cross-rail duplexing |url=https://www.fonts.com/content/learning/fontology/glossary/d |website=Fonts.com |quote=A metal-type term referring to {{linktext|linecasting}} characters created to share matrices (the pieces of metal in which characters were cast) that consequently were designed to have exactly the same character widths (set widths). Typically, a roman typeface and its corresponding italic or a roman and a bold from the same typeface family might be designed to cross-rail duplex. When emulating typeface designs created for linecasting equipment, type designers need to be aware that the duplexing in these faces sometimes resulted in less than ideal spacing and/or character proportions in one or more of the typefaces that were duplexed.}}</ref> A common combination was regular and italic for printing [[body text]], or regular and bold as with [[Metro (typeface)|Metro]], but Linotype also offered more unusual combinations, such as a serif text face duplexed with a bold sans-serif for emphasis.<ref name="Handbuch der Schriftarten">{{cite book|title=Handbuch der Schriftarten|date=1926|publisher=Seemann|location=Leipzig|p=293|url=http://www.klingspor-museum.de/Handbuch-der-Schriftarten.html|accessdate=30 June 2017}}</ref>
A '''duplexed''' matrix with two sites for casting letters was common on Linotype machines. By switching the position of the matrices in the machine it was easy to switch between casting two styles in the same line, the characters of which would have identical width.<ref>{{cite book|last=Durbeck|first=Robert|title=Output Hardcopy Devices|url=https://books.google.com/books?id=s329hWFOqPUC&pg=PA502|year=2012|publisher=Elsevier|isbn=978-0-323-14674-6|page=502|quote= the fitting of letter shapes to certain available widths, “duplexing”, or the placing of a light and bold character on the same width}}</ref><ref>{{cite book|last=Byers|first=Steve|title=The Electronic Type Catalog|url=https://books.google.com/books?id=rztUAAAAMAAJ|year=1991|publisher=Bantam Books|isbn=978-0-553-35446-1|page=11|quote= both designs had to measure the same width. This was called duplexing. If an italic was to be paired, or duplexed, with a roman, the italic was redrawn and refitted to the width of the roman.}}</ref><ref>{{cite web |title=duplexing, cross-rail duplexing |url=https://www.fonts.com/content/learning/fontology/glossary/d |website=Fonts.com |quote=A metal-type term referring to {{linktext|linecasting}} characters created to share matrices (the pieces of metal in which characters were cast) that consequently were designed to have exactly the same character widths (set widths). Typically, a roman typeface and its corresponding italic or a roman and a bold from the same typeface family might be designed to cross-rail duplex. When emulating typeface designs created for linecasting equipment, type designers need to be aware that the duplexing in these faces sometimes resulted in less than ideal spacing and/or character proportions in one or more of the typefaces that were duplexed.}}</ref> A common combination was regular and italic for printing [[body text]], or regular and bold as with [[Metro (typeface)|Metro]], but Linotype also offered more unusual combinations, such as a serif text face duplexed with a bold sans-serif for emphasis.<ref name="Handbuch der Schriftarten">{{cite book|title=Handbuch der Schriftarten|date=1926|publisher=Seemann|location=Leipzig|p=293|url=http://www.klingspor-museum.de/Handbuch-der-Schriftarten.html|access-date=30 June 2017}}</ref>


All [[monospaced font]]s are inherently duplexed.
All [[monospaced font]]s are inherently duplexed.

Revision as of 06:17, 13 December 2020

Not to be confused with Dot matrix printing.
Matrices created by Jean Jannon around 1640. The Garamond typeface installed with most Microsoft software is based on these designs.[1][2][3]

In the manufacture of metal type used in letterpress printing, a matrix (from the Latin meaning womb or a female breeding animal) is the mould used to cast a letter, known as a sort.[4] Matrices for printing types were made of copper.[5]

However, in printmaking the matrix is whatever is used, with ink, to hold the image that makes up the print, whether a plate in etching and engraving or a woodblock in woodcut.

Description

In letterpress or "cold metal" typesetting, used from the beginning of printing to the late nineteenth century, the matrix of one letter is inserted into the bottom of an adjustable-width hand mould, the mould is locked and molten type metal is poured into a straight-sided vertical cavity above the matrix. When the metal has cooled and solidified the mould is unlocked and the newly cast metal sort is removed. The matrix can then be reused to produce more copies of the sort.[6] The sorts could then be cleaned up and sent to the printer. In a low-pressure hand mould matrices are long-lasting and so could be used many times.[7]

A composition case loaded with matrices for a font, used to cast metal type on a Monotype composition casting machine in the hot metal typesetting period. The matrices were stamped with punches machined using pantographs from large working drawings and intermediate copper patterns, and used to cast type under the control of a keyboard.[8] This gave much cleaner results than pre-pantograph punches, which had to be hand-carved at the size of the desired letter, and allowed fonts to be issued in more sizes faster than was previously possible.[9] The font is Bembo.

In the hot metal typesetting systems of the later years of metal type printing, from the late nineteenth century onwards, new type is cast for each job under the control of a keyboard. The matrix or mats for a complete font are loaded into a matrix-case and inserted into a casting machine, which casts the required sorts (or, in a Linotype machine, a solid block for each line) for a page composition automatically, often from a paper reel.

A punch (left) and the respective matrix produced from it (right). The small letters at the base of the matrix are founders' inventory marks.

Manufacture

The standard method to make a matrix was to drive a steel punch in the shape of the type to be made into soft copper.[10] The matrix could then be cleaned up and cut down to the width of the letter to be cast: this is called "justification" and sets the width of the letter when cast. An matrix that has not yet been justified is called a "strike". Adjustment of the matrix had to be done very carefully to ensure even flow of letters on the page.

Large typefaces, or wide designs such as emblems or medallions, were never very easily produced by punching since it was hard to drive large punches evenly. Early alternative methods used included printing from woodblocks, 'dabbing', where wood-blocks were punched into metal softened by heating, or carefully casting type or matrices in moulds made of softer materials than copper such as sand, clay, or punched lead.[11][12][13][14] One solution to the problem in the early nineteenth century was William Caslon IV's riveted "Sanspareil" matrices formed by cut-out from layered sheets. The problem was ultimately solved in the mid-nineteenth century by new technologies, electrotyping and pantograph engraving, the latter both for wood type and then for matrices.

From the nineteenth century additional technologies arrived to make matrices. The first was electrotyping from the 1840s, which forms a copper matrix around a pattern letter by electrodeposition of copper.[a] The advantage of electrotyping was that the pattern letter did not have to be out of hard steel, so it could be cut in soft lead alloy much faster than a punch could. This allowed an explosion in the number of display typefaces available.[16] It also allowed printers to form matrices for types for which they did not have matrices, or duplicate matrices when they had no punches, and accordingly was less honourably used to pirate typefaces from other foundries.[16] The technology was most commonly used for larger and more esoteric display typefaces, with punched matrices preferred for body text types.[16] An additional technology from the 1880s was the direct engraving of punches (or matrices, especially with larger fonts) using a pantograph cutting machine, controlled by replicating hand movements at a smaller size.[10]

Duplexing

Duplexed Linotype matrices for regular and bold styles.

A duplexed matrix with two sites for casting letters was common on Linotype machines. By switching the position of the matrices in the machine it was easy to switch between casting two styles in the same line, the characters of which would have identical width.[17][18][19] A common combination was regular and italic for printing body text, or regular and bold as with Metro, but Linotype also offered more unusual combinations, such as a serif text face duplexed with a bold sans-serif for emphasis.[20]

All monospaced fonts are inherently duplexed.

See also

References

  1. ^ "Jannon". French Ministry of Culture.
  2. ^ "Monotype Garamond". Fonts.com. Monotype. Retrieved 4 July 2015.
  3. ^ "Garamond". Microsoft. Retrieved 4 July 2015.
  4. ^ Man, John (2002). The Gutenberg Revolution: the story of a genius that changed the world. London: Headline. ISBN 0-7472-4504-5. [page needed]
  5. ^ Theodore Low De Vinne (1899). The Practice of Typography: A Treatise on the Processes of Type-making, the Point System, the Names, Sizes, Styles, and Prices of Plain Printing Types. Century Company. pp. 9–36.
  6. ^ Meggs, Philip B. A History of Graphic Design. John Wiley & Sons, Inc. 1998. (pp 58–69) ISBN 0-471-29198-6
  7. ^ Mosley, James (2001). "Memories of an Apprentice Typefounder". Matrix. 21: 1–13.
  8. ^ "Monotype matrices and moulds in the making" (PDF). Monotype Recorder. 40 (3). 1956.
  9. ^ Morison, Stanley. "Printing the Times". Eye. Retrieved 28 July 2015.
  10. ^ a b Tracy, Walter. Letters of Credit. pp. 32–40.
  11. ^ Mosley, James. "Big brass matrices: a mystery resolved?". Type Foundry (blog). Retrieved 5 October 2017.
  12. ^ Mosley, James. "Big brass matrices again: the Enschedé 'Chalcographia' type". Type Foundry (blog). Retrieved 5 October 2017.
  13. ^ Mosley, James. "Dabbing, abklatschen, clichage..." Type Foundry (blog). Retrieved 5 October 2017.
  14. ^ "Ornamented types: a prospectus" (PDF). imimprimit. Archived from the original (PDF) on 22 December 2015. Retrieved 12 December 2015.
  15. ^ Howes, Justin (2000). "Caslon's punches and matrices". Matrix. 20: 1–7.
  16. ^ a b c MacMillan, David. "Patrix Cutting and Matrix Electroforming: A Survey of the Data". Circuitous Root. Retrieved 6 October 2017.
  17. ^ Durbeck, Robert (2012). Output Hardcopy Devices. Elsevier. p. 502. ISBN 978-0-323-14674-6. the fitting of letter shapes to certain available widths, "duplexing", or the placing of a light and bold character on the same width
  18. ^ Byers, Steve (1991). The Electronic Type Catalog. Bantam Books. p. 11. ISBN 978-0-553-35446-1. both designs had to measure the same width. This was called duplexing. If an italic was to be paired, or duplexed, with a roman, the italic was redrawn and refitted to the width of the roman.
  19. ^ "duplexing, cross-rail duplexing". Fonts.com. A metal-type term referring to linecasting characters created to share matrices (the pieces of metal in which characters were cast) that consequently were designed to have exactly the same character widths (set widths). Typically, a roman typeface and its corresponding italic or a roman and a bold from the same typeface family might be designed to cross-rail duplex. When emulating typeface designs created for linecasting equipment, type designers need to be aware that the duplexing in these faces sometimes resulted in less than ideal spacing and/or character proportions in one or more of the typefaces that were duplexed.
  20. ^ Handbuch der Schriftarten. Leipzig: Seemann. 1926. p. 293. Retrieved 30 June 2017.
  1. ^ One problem with electrotyping is that the newly formed letter is slightly smaller than the original letter - a shrinkage of about 0.0038%. While not a great problem for a single electrotyping, the effect could multiply in letters repeatedly copied. According to Justin Howes, sometimes type to be electrotyped was squashed slightly in a press or filed down to compensate before it was duplicated.[15]
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