A nib is the part of a quill, dip pen or fountain pen which comes into contact with the writing surface in order to deposit ink. Different types of nibs vary in their purpose, shape and size, as well as the material from which they are made.
The quill replaced the reed pen across Europe by the Early Middle Ages and remained the main writing tool of the West for nearly a thousand years until the 17th century. Quills are fashioned by cutting a nib into the end of a feather obtained from a fairly large bird, such as a goose, traditionally from its left wing. A quill has the advantage of being more durable and more flexible than a reed pen, and it can also retain ink in the hollow shaft of the feather, known as the calamus, allowing more writing time between ink dippings. The quill was in common use until the early 19th century and the advent of the metal nib. For business purposes, the quill was fairly quickly overtaken; however, it remains popular for personal use and for artistic work.
Metal nibs have their origins as far back as ancient Egypt and were made of metals like copper and bronze. However, the quality of writing that could be achieved with these pens was inferior to that of reed pens. It was not until 1822, when John Mitchell set up a factory in Birmingham, England to manufacture steel nibs, that their popularity took off. The metal nib retains a sharp point or edge much longer than the quill, which wears out more quickly and requires much skill to sharpen. Metal nibs are also easily manufactured to have different properties for different purposes. Also, they can now be attached to and removed from holders, allowing one to switch between nibs with relative ease.
Pen nibs come in a variety of different shapes and sizes for different purposes but can be split into two main types: broad nibs and pointed nibs.
The broad nib, also called broad-edge or chisel-edge, is the older of the two nib types. It is rigid and has a flat edge. The pen is usually held at a constant angle to the horizontal; different scripts require different nib angles. Thick and thin strokes are created by varying the direction of the stroke.
Many writing styles have developed over the centuries with the broad nib, including the medieval Uncial, Blackletter and Carolingian minuscule scripts (and their variants), the Italic Hand of the Renaissance, and more recently Edward Johnston's Foundational Hand, developed in the early 20th century.
The pointed nib is flexible and comes to a sharp point rather than a broad edge. Thick and thin strokes are achieved by varying the amount of pressure on the nib. Thick lines are created on downstrokes by pushing down on the nib, causing the nib tines to splay and allowing more ink to flow through the widened slit onto the writing surface. Lighter pressure produces less flexing of the tines, creating thinner strokes. The finest hairline strokes are created on the upstrokes and sideways strokes. Due to the shape of the pointed nib, thick lines can only be produced on downstrokes. If too much pressure is applied to the pen on an upstroke, the nib tines are likely to dig into the paper.
Pointed nibs originated in the 17th century and were initially created by hand from quills in a similar fashion to broad-edge nibs. Towards the end of the Industrial Revolution in the early 19th century, a high demand for nibs coupled with steel manufacturing processes eventually led to the mass production of the steel nib. Pointed nibs also led to the development of newer styles of penmanship such as the English Round Hand and Copperplate scripts during the 17th and 18th centuries, as well as the Spencerian script in the 19th century.
Pointed pens are also used by artists and drafters for sketching, mapping and technical drawing. Although any pointed nib can be used for drawing, there are nibs available that resemble writing nibs but are specially designed for pen drawing.
Fountain pen nibs
According to Mathur et al., "the modern fountain pen nib may be traced back to the original gold nib which had a tiny fragment of ruby attached to form the wear-point." Following the discovery of the platinum group of metals which include ruthenium, osmium and iridium, "a small quantity of iridium was isolated and used on the iridium-tipped gold dip pen nibs of the 1830s." Today, nibs are usually made of stainless steel or gold alloys, with the most popular gold content being 14 carat (58⅓%) and 18 carat (75%). Titanium is a less common metal used for making nibs. Gold is considered the optimum metal for its flexibility and its resistance to corrosion, although gold's corrosion resistance is less of an issue than in the past because of better stainless steel alloys and less corrosive inks.
Gold and most steel and titanium nibs are tipped with a hard, wear-resistant alloy that typically includes metals from the platinum group. These metals share qualities of extreme hardness and corrosion resistance. The tipping material is often called "iridium", but there are few, if any, nib or pen manufacturers that used tipping alloys containing iridium metal since the mid 1950s. The metals osmium, rhenium, ruthenium and tungsten are used instead, generally as an alloy, with a little bit of osmium, rhenium, ruthenium and tungsten in a mix of other materials, produced as tiny pellets which are soldered or welded onto a nib tip prior to cutting the nib slit and grinding the tip into its final shape. Untipped steel and titanium points will wear more rapidly due to abrasion by the paper.
The nib usually has a tapering slit cut down its centre, to convey the ink down the nib by capillary action, as well as a breather hole of varying shape. The breather hole allows air into the feed, and back up to the sac. The breather hole also acts as a stress relieving point, preventing the nib from cracking longitudinally from the end of the slit as a result of repeated flexing during use. Adding distance between the breather hole and the nib tip adds elasticity or flexibility to the nib.
The whole nib narrows to a point where the ink is transferred to the paper. Broad calligraphy pens may have several slits in the nib to increase ink flow and help distribute it evenly across the broad point. Nibs divided into three 'tines' are commonly known as music nibs. This is because their line, which can be varied from broad to fine, is suited for writing musical scores.
Types of nib
Although the most common nibs end in a round point of various sizes (extra fine, fine medium, broad), various other nib shapes are available. Examples of this are oblique, reverse oblique, stub, italic and 360-degree nibs.
Broader nibs are used for less precise emphasis, with the benefit of a greater level of ink shading and/or sheen on less absorbent paper. Finer nibs (e.g. EF and F) may be used for intricate corrections and alterations, at the expense of shading and sheen. Oblique, reverse oblique, stub and italic nibs may be used for calligraphic purposes or for general handwritten compositions.The line width of a particular nib may vary based on its country of origin; Japanese nibs are often thinner in general.
Flexibility is given to nibs in several ways. First, thickness of the nib metal changes flex. When the nib alloy has been pressed thick it will result in a hard nib, while thinly pressed nibs are more flexible. Nibs can be pressed so that they are thinner at the tip and thicker at the feed to mitigate stiffness or to give a more controlled flex. Second, the curve of the nib determines in part how stiff the nib will be.
Nibs pressed into more deeply convex curves, or into three or five faceted curves, will be stiffer than flatter nibs. Third, the "breather hole" size, shape, and position alter the stiffness. Heart shaped holes will improve flex as they widen, while round, small holes stiffen the pen. Fourth, the length of the tines determines how far they can spread under pressure, shorter tines make a stiffer nib. Fifth, the alloy used can affect stiffness: as mentioned before, gold is considered superior for its flex compared to steel. Moreover, purer gold (18k and 21k) is softer than most lower gold concentration (14k) alloys.
Fountain pens dating from the first half of the 20th century are more likely to have flexible nibs, suited to the favored handwriting styles of the period (e.g. Copperplate script and Spencerian script). By the 1940s, writing preferences had shifted towards stiffer nibs that could withstand the greater pressure required for writing through carbon paper to create duplicate documents.
Furthermore, competition between the major pen brands such as Parker and Waterman, and the introduction of lifetime guarantees, meant that flexible nibs could no longer be supported profitably. In countries where this rivalry was not present to the same degree, for example the UK and Germany, flexible nibs are more common.
Nowadays, stiff nibs are the norm as people exchange between fountain pens and other writing modes. These more closely emulate the ballpoint pens modern users are experienced with. Despite being rigid and firm, the idea that steel nibs write "horribly" is a misconception. More flexible nibs can be easily damaged by ballpoint users who write with excessive pressure. Ideally, a fountain pen's nib glides across the paper using the ink as a lubricant, and requires no pressure.
Good quality nibs that have been used appropriately are long lasting, often lasting longer than the lifetime of the original owner. Many vintage pens with decades-old nibs can still be used today.
Different nib styles
Other styles of fountain pen nibs include hooded (e.g. Parker 51, Parker 61, 2007 Parker 100 and Hero 329), inlaid (e.g. Sheaffer Targa or Sheaffer P.F.M) or integral Nib (Parker T-1 and Falcon, Pilot Myu 701), which may also be ground to have different writing characteristics.
Users are often cautioned not to lend or borrow fountain pens as the nib "wears in" at an angle unique to each individual person. A different user is likely to find that a worn-in nib does not write satisfactorily in their hand and, furthermore, creates a second wear surface, ruining the nib for the original user. This, however, is not a point of concern in pens with modern, durable tipping material, as these pens take many years to develop any significant wear. 
- "The Quill Pen" on Colonial Williamsbourgh
- "A Brief History of Writing Instruments" by Mary Bellis on About.com
- "History 101: Pens and Ink", Daily Kos, 16 Nov 2013
- et. al, Mathur. Developments and Changes in Science Based Technologies. ISBN 1-4828-1398-X. Retrieved 27 July 2016.
- Binder, Richard. "To the Point: Nib Materials". Richard Binder's Pens. Retrieved 26 July 2016.
- "Steel vs. Gold Fountain Pen Nibs". Pen Heaven. Retrieved 26 July 2016.
- "Where's the Iridium?". The Nibster. Retrieved 26 July 2016.
- Mottishaw, J. (1999). "How can we talk about Iridium?". The PENnant. XIII (2).
- Binder, Richard. "Filling Systems: Overview of How They Work and How to Fill Them". Richard Binder's Pens. Retrieved 26 July 2016.
- "How Fountain Pens Work". Explain That Stuff. Retrieved 27 July 2016.
- Binder, Richard. "To the Point: Making Music with a Pen". Richard Binder's Pens. Retrieved 26 July 2016.
- Binder, Richard. "Nibs I: The Basics". Richard Binder's Pens. Retrieved 26 July 2016.
- Binder, Richard. "Nibs II: Beyond the Basics with Specialty Nibs". Richard Binder's Pens. Retrieved 26 July 2016.
- "Grading Flex Nibs". VintagePen. Retrieved 26 July 2016.
- Binder, Richard. "Rethinking The Value of Steel Nibs". Richard Binder's Pens. Retrieved 27 July 2016.
- "Fountain Pen Guide". Gentleman's Gazette. Retrieved 27 July 2016.
- Binder, Richard. "To the Point: Steal the Steel". Richard Binder's Pens. Retrieved 26 July 2016.
- "How to Collect and Buy Vintage Fountain Pens". The Art of Manliness. 19 November 2015. Retrieved 27 July 2016.
- Binder, Richard. "To the Point: Nibz 'n the Hood". Richard Binder's Pens. Retrieved 26 July 2016.
- Binder, Richard. "Design Features: Integral Nibs". Richard Binder's Pens. Retrieved 27 July 2016.
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