File (tool) 549613 224738429 2008-07-10T05:25:26Z Senator Palpatine 7357381 Reverted edits by [[Special:Contributions/203.131.176.178|203.131.176.178]] to last version by SmackBot (using [[WP:HG|Huggle]]) {{Unreferenced|date=June 2008}} {{about|files of linear form|files of rotary form (rotary files)|Burr (cutter)}} [[Image:Surface of a file.jpg|thumb|Detail of a double-cut flat file]] A '''file''' (or '''hand-file''') is a [[hand]] [[tool]] used to shape [[material]] by cutting. A file typically takes the form of a hardened [[steel]] bar, mostly covered with a series of sharp, parallel ridges or ''teeth''. Most files have a narrow, pointed [[Tang (weaponry)|tang]] at one end to which a handle can be fitted. The [[rasp]] is a related tool which is generally larger and has raised, pointed teeth on its surface rather than straight ridges. == History == Archaeologists have discovered rasps made from bronze in Egypt, dating back to the years 1200 - 1000 B.C., Archaeologists have also discovered rasps made of iron used by the Assyrians, dating back to the 7th Century B.C. Among the drawings of [[Leonardo da Vinci]] is a sketch of a [[machine tool]] for the cutting of files (the chisel would make one strike, [[Swage|swaging]] a tooth, then automatically advance into position for the next tooth, and strike again). [[Machining]] in the mid 19th century was heavily dependent on filing, because [[Milling machine|milling]] practice was slowly evolving out of its infancy. As late as the early 20th century, [[manufacturing]] often 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 for deburring only. Skillful filing to shape and size is still a part of [[Tool and die maker|diemaking, moldmaking, toolmaking, etc.]], but even in those fields, the goal is usually to avoid handwork when possible. == Classification == [[Image:FilesFlat-Smooth-2ndCut-Bastard.jpg|thumb|200px|Relative tooth sizes for smooth, 2nd cut and bastard files]] Files come in a wide variety of sizes, shapes, 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. There is no unitary international standard for file nomenclature; however, there are many generally accepted names for certain kinds of files. A file's teeth can range from rough, coarse and bastard (meaning intermediate) to second-cut, smooth and dead smooth. A single-cut or mill file has one set of parallel teeth, while a cross-cut or double-cut file has a second set at an angle to the first. 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 only on the face or only on the 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: * '''Hand files''' are parallel in width and tapered in thickness; they are used for general work. * '''Joint round edge files''' are 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. * '''Half round ring files''' taper in width and thickness, coming to a point, and are narrower than a standard half round. Used for filing inside of rings. * '''Barrette files''' are 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 files''' are parallel 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. * '''Crossing files''' are 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. * '''Crochet files''' are 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. * '''Knife files''' are 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. * '''Pippin files''' are 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. * '''Square files''' are gradually tapered and cut on all four sides. Used for a wide variety of things. * '''Triangle files''', also called '''three square files''', are gradually tapered and come to a point. Used for many things, cutting angles less than 90 degrees, etc. It has been pointed out that there's no such thing as a "three square". Triangle files are 60 degree angles, and "square" is 90 degrees. All this is true, but triangle files are often called the term simply as a matter of slang. * '''Round files''', also called '''rat-tail files''', are gradually tapered and are used for many tasks that require a round tool, such as enlarging round holes or cutting a scalloped edge. * '''Round parallel files''' are similar to round files, except that they do not taper. Shaped like a toothed cylinder. * '''Equalling files''' are parallel in width and thickness. Used for filing slots and corners. * '''Slitting files''' are parallel in width with a diamond shaped cross section. Thinner than knife files and use for filing slots. * '''Pillar files''' are parallel in width and tapered in thickness for perfectly flat filing. Double cut top and bottom with both sides safe, these a long, narrow files for precision work. * '''Warding files''' are 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. * '''Dreadnought''' (curved teeth) and '''millenicut''' (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. == Use == Files have forward-facing cutting teeth, and cuts most effectively when pushed over the workpiece. Drawfiling 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 a very 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 mirror finish. The grooves in a file may became clogged during use, causing the file to lose its cutting ability and trapped shavings can scratch the work surface. A [[file card (tool)|file card]] can be used to clean the file. Files should always be used with a handle, otherwise the naked tang can injure the operator. == Specialized file types == === Diamond files === [[Image:DiamondFiles.jpg|thumb|200px|A selection of diamond impregnated files]] Instead of having teeth cut into the file's working surface, diamond files (pictured to the right) have small particles of [[Diamond#Industrial diamond industry|industrial diamonds]] embedded 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.{{-}} === Needle files === [[Image:NeedleFiles.jpg|thumb|200px|left|A selection of small needle files]] The image to the left shows a selection of needle files in an assortment of cross sectional shapes.<br> Needle files are usually sold in sets of 6 or 12 (or more) different shapes, packaged in a soft pouch, both for ease of handling and protection of the files' teeth. They 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.<br> They are often used as pictured, however, like all files, they are safest when used with a handle. The handle is often designed around the [[collet]] principle which allows the files and handle to be interchanged quickly. {{-}} === Riffler files === [[Image:RifflerFiles.jpg|thumb|200px|A selection of riffler files]] Riffler files, as pictured to the right, 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. - eg; [[Injection moulding|plastic injection moulding]] or [[Die casting#Die Casting|die casting]] {{-}} === Machine files === [[Image:MachineFiles.jpg|thumb|200px|left|A selection of machine files]] The files pictured on the left are designed for use in a '''filing machine'''. A filing machine is similar in appearance to a [[scroll saw]] or [[band saw]] in that the file is mounted vertically in the middle of a table. When in operation the file reciprocates vertically while the workpiece is presented to the file's face and manipulated around the table/file as the shape requires. The cone point of the pictured, top two files allows the files to center themselves firmly in the bottom file holder. The pictured, lower two files are required to be inserted into the bottom file holder and physically restrained with [[set screw]]s, an identical process as for the top holder. Filing machines are useful tools as they reduce fatigue and improve product accuracy, and although not usually seen in modern production environments, they may be found in older toolrooms or [[Molding (process)|diemaking]] shops as an aid in the manufacture of specialist tooling. {{-}} == See also == *[[Burr (cutter)]] *[[File card (tool)]] *[[Filing (metalworking)]] *[[Rasp]] {{Metalworking - Metalworking hand tools}} [[Category:Mechanical hand tools]] [[Category:Metalworking hand tools]] [[Category:Woodworking hand tools]] [[bg:Пила]] [[ca:Llima (eina)]] [[cs:Pilník]] [[da:Fil (værktøj)]] [[de:Feile]] [[et:Viil (tööriist)]] [[es:Lima (herramienta)]] [[eo:Fajlilo]] [[fa:سوهان (ابزار)]] [[fr:Lime (usinage)]] [[it:Lima (strumento)]] [[nl:Vijl]] [[ja:やすり]] [[no:Fil]] [[pl:Pilnik]] [[pt:Lima (ferramenta)]] [[ru:Напильник]] [[simple:File (tool)]] [[sr:Турпија]] [[fi:Viila]] [[sv:Fil (verktyg)]] [[zh:銼刀]]