File (tool)

Afileis atoolused to remove fine amounts of material from a workpiece. It is common inwoodworking,metalworking,and other similar trade and hobby tasks. Most arehand tools,made of acase hardened steelbar of rectangular, square, triangular, or round cross-section, with one or more surfaces cut with sharp, generally parallel teeth. A narrow, pointedtangis common at one end, to which a handle may be fitted.^[1]

Araspis a form of file with distinct, individually cut teeth used for coarsely removing large amounts of material.^[2]

Files have also been developed with abrasive surfaces, such as natural or syntheticdiamond grainsorsilicon carbide,allowing removal of material that would dull or resist steel files, such asceramic.

History[edit]

Early filing orraspinghas prehistoric roots and grew naturally out of the blending of the twin inspirations of cutting with stone cutting tools (such ashand axes) andabradingusing natural abrasives, such as well-suited types of stone (for example,sandstone).^[3]Relatedly,lappingis also quite ancient, withwoodand beachsandoffering a natural pair of lap and lapping compound. The Disston authors state, "To abrade, or file, ancient man used sand, grit, coral, bone, fish skin, and gritty woods,—also stone of varying hardness in connection with sand and water."^[3]

TheBronze Ageand theIron Agehad various kinds of files and rasps. Archaeologists have discovered rasps made from bronze in Egypt, dating back to the years 1200–1000 BC. Archaeologists have also discovered rasps made of iron used by the Assyrians, dating back to the 7th Century BC.

During theMiddle Agesfiles were already quite advanced, thanks to the extensive talents ofblacksmiths.^[4]By the 11th century, there already existedhardenedfiles that would seem quite modern even to today's eyes.^[4]But although they existed, and could even have spread widely, in a geographical sense, viatrade,they were not widespread in the cultural sense of the word—that is, most people, and even manysmiths,did not have them. For example, in the 13th century, ornamental iron work atPariswas done skillfully with the aid of files, butthe process was a secretknown only to a master craftsman.^[4]The Disston authors state, "It was not until the fourteenth century, however, that those who practiced art in ironwork began to use other tools, besides heat and the hammer, regularly."^[4]This statement could mislead in the sense that stoning (with sandstone) and lapping (with wood, sand, and water) have never been rare activities among humans, or especially smiths. But the point is that modern iron or steel files, with teeth and hardening, and thematerial cultureof intricate filing that would lead tolocksmithingandgunsmithing,for example, are what took time to become common. But by thelate Middle Ages,the transition was extensive. The Disston authors mentionNuremberg,Sheffield,andRemscheid(they use theReimscheidspelling) as leading centers of production for files as well as tools in general. The activity in Remscheid reflects the metalworking spirit of theRhine-Ruhrregion in general (includingEssen,Düsseldorf,andCologne) rather than representing a single village of geniuses in isolation. (Considering the Disston authors' mention of the blacksmith guilds of 13th-centuryFlorenceand 15th-century England, coupled with their mention ofNuremberg,Sheffield,andRemscheid,the region that sweeps from Florence through Nuremberg, the Rhine-Ruhr, the Netherlands, and up to Sheffield, can be compared to the modern economics notation of theBlue Banana.) Most files of the period were smithed by hand in a sequence in which the iron wasforged(heated and hammered), then the teeth were cut with achisel(some of this action was just as muchupsetting/swagingas it was cutting), and then the piece washardened(by heating and thenquenching), followed sometimes bytempering.Among the drawings ofLeonardo da Vinciis a sketch of amachine toolfor the cutting of files (the chisel would make one strike,swaginga tooth, then automatically advance into position for the next tooth, and strike again).

Prior to the industrialization ofmachiningand the development ofinterchangeable partsduring the 19th century, filing was much more important in the construction ofmechanisms.Component parts were roughly shaped byforging,casting,and by primitivemachiningoperations. These components were then individually hand-fitted for assembly by careful and deliberate filing. The potential precision of suchfittingis much higher than generally assumed, but the components of such hand-fit assemblies are decidedly not interchangeable with those from another assembly.Locks,clocks,andfirearms(flintlocks and earlier) were manufactured in this way for centuries before theIndustrial Revolution.

Machiningin the mid-19th century was heavily dependent on filing, becausemillingpractice was slowly evolving out of its infancy. As late as the early 20th century,manufacturingoften involved filing parts to precise shape and size. In today's manufacturing environment, milling and grinding have generally replaced this type of work, and filing (when it occurs at all) usually tends to be fordeburringonly. Skillful filing to shape and size is still a part ofdiemaking, moldmaking, toolmaking, etc.,but even in those fields, the goal is usually to avoid handwork when possible.

Types[edit]

Relative tooth sizes for smooth, 2nd cut and bastard files

Files come in a wide variety of materials, sizes, shapes, cuts, and tooth configurations. The cross-section of a file can be flat, round, half-round, triangular, square, knife edge or of a more specialized shape.^[5]^[6]Steel files are made fromhigh carbon steel ^[7]^[8](1.0 to 1.25% carbon) and may be through hardened^[9]orcase hardened.^[10]^[11]

There is no unitary international standard for file nomenclature; however, there are many generally accepted names for certain kinds of files. A file is "blunt" if its sides and width are both parallel throughout its length.^[2]It is "tapered" if there is a reduction in its dimensions from its heel toward its point. A file may taper in width, in thickness, or both.^[2]A "tang"is a protrusion at the heel, tapered, parallel sided, or conical, for gripping, inserting in a handle, or mounting in a chuck.^[2]

Thecutof the file refers to how fine its teeth are. They are defined as (from roughest to smoothest): rough, middle, bastard, second cut, smooth, and dead smooth. Asingle-cutfile has one set of parallel teeth while across-cutordouble-cutfile has a second set of cuts forming diamond shaped cutting surfaces.^[1]In Swiss-pattern files the teeth are cut at a shallower angle, and are graded by number, with a number 1 file being coarser than a number 2, etc. Most files have teeth on all faces, but some specialty flat files have teeth on only one face or one edge, so that the user can come right up to another edge without damaging the finish on it.

Some of the common shapes and their uses:

File Types and Uses
Name	Image	Description
Mill file		The most common shape, single-cut, rectangular in cross section, with an even thickness throughout their length; they may be either parallel sided or taper slightly in width from heel to end^[9]
Flat file		Similar to a mill file, but may be double-cut
Hand file		Parallel in width and tapered in thickness, used for general work
Square file		Gradually tapered and cut on all four sides. Used for a wide variety of tasks
Three square/Triangular file		Triangular in cross-section, which may taper gradually, often to a point on smaller files. The sides may be equal in cross-section, or have two long and one short surface
Rat tail		Round in cross-section and gradually tapered over their length. They are used for enlarging round holes or cutting scalloped edges
Round		Round in cross section and equal diameter over their length (nottapered). They are used for smoothing inside holes and circular grooves, and for sharpening certain kinds of saw.
Half round file		Has one flat and one convex surface, and either tapering slightly or maintaining an even thickness, width, or both over their length
Combination file		Tangless, flat sided or half-round, with two to four cutting surfaces, typically including a combination of single cut, double cut, or rasp

Barrette filesare tapered in width and thickness, coming to a rounded point at the end. Only the flat side is cut, and the other sides are all safe. For doing flat work.
Checkering filesparallel in width and gently tapered in thickness. They have teeth cut in a precise grid pattern, and are used for making serrations and doing checkering work, as on gunstocks.
Crochet filesare tapered in width and gradually tapered in thickness, with two flats and radiused edges, cut all around. Used in filing junctions between flat and curved surface, and slots with rounded edges.
Crossing filesare half round on two sides with one side having a larger radius than the other. Tapered in width and thickness. For filing interior curved surfaces. The double radius makes possible filing at the junction of two curved surfaces or a straight and curved surface.
Dreadnought(curved teeth) andmillenicut(straight teeth) files both have heavily undercut, sharp but coarse teeth. Both can be used for rapidly removing large quantities of material from thick aluminum alloy, copper or brass. Today, the millenicut and dreadnought have found a new use in removing plastic filler materials such as two-part epoxies or styrenes such as those commonly used in automobile body repairs.
Equalling filesare parallel in width and thickness. Used for filing slots and corners.
Farrier Raspfiles are tanged rasps used mainly byfarriersand blacksmiths. They are flat with a rasp on one side and double cut on the reverse.
Fret filesare square or rectangular with three flat sides and one side having a concave groove. They are used by luthiers to file a rounded "crown" on the frets of guitars and other fretted instruments. The flat faces are used to dress the ends of the frets, removing the sharp edges left after the frets are trimmed to length.
Half round ring filestaper in width and thickness, coming to a point, and are narrower than a standard half round. Used for filing inside of rings.
Joint round edge filesare parallel in width and thickness, with rounded edges. The flats are safe (no teeth) and cut on the rounded edges only. Used for making joints and hinges.
Knife filesare tapered in width and thickness, but the knife edge has the same thickness the whole length, with the knife edge having an arc to it. Used for slotting or wedging operations.
Nut filesare fine, precise files in sets of graduated thickness, used byluthiersfor dressing the slots at the end of the neck which support the strings of guitars, violins etc., in the correct position.
Pillar filesare parallel in width and tapered in thickness for perfectly flat filing. Double cut top and bottom with both sides safe, these are long, narrow files for precision work.
Pippin filesare tapered in width and thickness, generally of a teardrop cross section and having the edge of a knife file. Used for filing the junction of two curved surfaces and making V-shaped slots.
Planemaker's floatFloatsare straight, single-cut files which taper used for cutting, flattening and smoothing wood, particularly in making wooden hand planes.
Round parallel filesare similar to round files, except that they do not taper. Shaped like a toothed cylinder.
Saw sharpening filesare usually single cut to deliver a smooth finish. They are suited to sharpening saw blades and dressing tool edges, especially where a finer, sharper edge or smoother surface finish is desired. TheChainsaw fileis one example, used primarily for sharpening chainsaws. These appear to have a round cross-section, but are actually shaped to fit snugly against the cutting edge of a chainsaw's teeth.
Slitting filesare parallel in width with a diamond-shaped cross section. Thinner than knife files and use for filing slots.
Warding filesare parallel in thickness, tapered in width, and thin. Like a hand or flat file that comes to a point on the end. Used for flat work and slotting.

Diamond files[edit]

A selection of diamond impregnated files

Instead of having teeth cut into the file's working surface, diamond files have small particles ofindustrial diamondembedded in their surface (or into a softer material that is bonded to the underlying surface of the file). The use of diamonds in this manner allows the file to be used effectively against extremely hard materials, such as stone, glass or very hard metals such as hardened steel or carbide against which a standard steel file is ineffective. Diamond files are also the only type that may be used with a back-and-forth motion without damaging the file. These may also be called diamondlaps,as the "teeth" are not regular projections, as in a file, but particles, usually shaped and located randomly and held in place by a softer (any other) material.

Needle files[edit]

The image to the left shows a selection of needle files in an assortment of cross sectional shapes.

Needle files are small files that are used in applications where the surface finish takes priority over metal removal rates but they are most suited for smaller work pieces. They are often sold in sets, including different shapes.

Riffler files[edit]

Riffler files are small to medium-sized files in an assortment of cross sectional shapes and profiles. The varying profiles and shapes enable them to be used in hard to reach, or unusually shaped areas. They are often used as an intermediate step in die making where the surface finish of a cavity die may need to be improved, e.g. inplastic injection mouldingordie casting.

Machine files[edit]

Files are produced specifically for use in afiling machine,which is similar in appearance to ascroll sawwith a vertically reciprocating file mounted in the middle of a table. A workpiece is manipulated around the file's face as the shape requires.

A cone point (as pictured in the top and bottom files at left) allows a file to center itself in its mount. Files with flat mounting surfaces must be secured withset screws.

Filing machines are rarely seen in modern production environments, but may be found in older toolrooms or diemaking shops as an aid in the manufacture of specialist tooling.

Escapement files[edit]

Escapement files, also known as watchmaker's files, are a classification of short, (very) thin files with bastard-cut (medium coarseness) or embedded diamond surfaces, similar to needle files in form and function but smaller. Typical dimensions are on the order of approximately 100–140 mm (4–51⁄2in.) in length and 3–5 mm (1⁄8–3⁄16in.) in width. Best used for fine, delicate work on small pieces or mechanisms (such asescapements), escapement files are commonly used by clock andwatchmakers,as well as in crafting jewelry.

Dental files[edit]

Duringroot canal therapy,round files ranging from.06-to-0.8-millimetre (0.0024 to 0.0315 in) diameter files are used to smooth the narrow canals of the interior of the tooth and thus facilitate disinfection of the internal surface. Typically the files are made ofstainless steelornickel titanium(NiTi) and come in a variety of styles. Mechanized files, known as rotary files, are also commonly used. These files attach to the head of a specific oscillating or rotating drill.

Use[edit]

Files have forward-facing cutting teeth, and cut most effectively when pushed over the workpiece. A variety of strokes are employed to stabilize the cutting action and produce a varied result.^[2]Pulling a file directly backwards on a workpiece will cause the teeth to dull according to some sources. Other sources including a youtube experiment run in 2021 using coarse, medium and fine files dispute this. ^[12]Draw filingis an operation in which the file is grasped at each end, and with an even pressure alternately pulled and pushed perpendicularly over the work.^[2]A variation involves laying the file sideways on the work, and carefully pushing or pulling it across the work. This catches the teeth of the file sideways instead of head on, and an extremely fine shaving action is produced. There are also varying strokes that produce a combination of the straight ahead stroke and the drawfiling stroke, and very fine work can be attained in this fashion. Using a combination of strokes, and progressively finer files, a skilled operator can attain a surface that is perfectly flat and near flawless finish.

Pinningrefers to the clogging of the file teeth withpins,which are material shavings.^{[citation needed]}These pins cause the file to lose its cutting ability and can scratch the workpiece. Afile card,which is a brush with metal bristles, is used to clean the file. (The name, "card", is the same as used for the "raising cards"(spiked brushes) used in woolmaking.)^{[citation needed]}Chalkcan help prevent pinning.^[13]

References[edit]

^^a ^bLye 1993,pp. 12–13.
^^a ^b ^c ^d ^e ^fFacts About Files.C.O. Öberg & Co. 1930.
^^a ^bHenry Disston & Sons, Inc 1920,pp. 5–15.
^^a ^b ^c ^dHenry Disston & Sons, Inc 1920,pp. 16–17.
^"Types of Files".Files and Filing: Machinery's Reference Series: Number 48.Industrial Press. 1909. pp. 3–12.
^"Files".Machinery’s Handbook.The Industrial Press, New York. 1924. pp. 1140–1145.
^Goddard, Wayne (2000).The wonder of knifemaking.Krause Publications. pp. 30–31.ISBN 978-0-87341-798-3.
^R.L., Timings (2005).Newnes mechanical engineer's pocket book(3rd ed.). Elsevier. p. 560.ISBN 978-0-7506-6508-7.
^^a ^bHenry Disston & Sons, Inc 1920,p. 43.
^A.G., Atkins (2008).The science and engineering of cutting: the mechanics and processes of separating, scratching and puncturing biomaterials, metals and non-metals.Butterworth-Heinemann. p. 187.ISBN 978-0-7506-8531-3.The reference actually states that they are hardened to 40 HRC, but the HRC scale is commonly incorrectly used on case hardened surfaces, so the value has been converted to the correct superficial Rockwell scale.
^Martin, Thomas (1813).The circle of the mechanical arts.London. pp.341.
^Fireball Tool (Nov 20, 2021)."I Filed Backwards 2500 Times, And This Happened".YouTube.Retrieved13 February2024.
^Lye 1993,p. 13.

Bibliography[edit]

Blachford, George (1962), "Files and Filing",Metalwork in theory and practice,London: Christophers, pp. 25–39
Henry Disston & Sons, Inc(1920),The File: Its History, Making, and Uses,Philadelphia, PA, USA: Henry Disston & Sons, Inc.
Leonard, William Samuel (1905),"Chapter IV Files and Filing",Machine-shop tools and methods,J. Wiley & Sons, pp. 44–59
Lye, P. F. (1993),Metalwork theory, Book 1,Nelson Thornes,ISBN 978-0-17-444313-1.

[lye_12-1] Lye 1993,pp. 12–13.

[facts-2] Facts About Files.C.O. Öberg & Co. 1930.

[DisstonInc1920pp5-15-3] Henry Disston & Sons, Inc 1920,pp. 5–15.

[DisstonInc1920pp16-17-4] Henry Disston & Sons, Inc 1920,pp. 16–17.

[IP-1909-5] "Types of Files".Files and Filing: Machinery's Reference Series: Number 48.Industrial Press. 1909. pp. 3–12.

[IP-1924-6] "Files".Machinery’s Handbook.The Industrial Press, New York. 1924. pp. 1140–1145.

[Goddard-2000-7] Goddard, Wayne (2000).The wonder of knifemaking.Krause Publications. pp. 30–31.ISBN 978-0-87341-798-3.

[8] R.L., Timings (2005).Newnes mechanical engineer's pocket book(3rd ed.). Elsevier. p. 560.ISBN 978-0-7506-6508-7.

[DisstonInc1920p43-9] Henry Disston & Sons, Inc 1920,p. 43.

[10] A.G., Atkins (2008).The science and engineering of cutting: the mechanics and processes of separating, scratching and puncturing biomaterials, metals and non-metals.Butterworth-Heinemann. p. 187.ISBN 978-0-7506-8531-3.The reference actually states that they are hardened to 40 HRC, but the HRC scale is commonly incorrectly used on case hardened surfaces, so the value has been converted to the correct superficial Rockwell scale.

[11] Martin, Thomas (1813).The circle of the mechanical arts.London. pp.341.

[12] Fireball Tool (Nov 20, 2021)."I Filed Backwards 2500 Times, And This Happened".YouTube.Retrieved13 February2024.

[13] Lye 1993,p. 13.

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