Part number
A part number is an identifier of a particular part design used in a particular industry. Its purpose is to simplify reference to that part. A part number unambiguously identifies a part design within a single corporation, and sometimes across several corporations.
For example, when specifying a screw, it is easier to refer to "HSC0424PP" than saying "Hardware, screw, machine, 4-40, 3/4" long, pan head, Phillips". In this example, "HSC0424PP" is the part number, and it may be prefixed in database fields as "PN HSC0424PP" or "P/N HSC0424PP".
The part design versus instantiations of it
As a part number is an identifier of a part design, a serial number is a unique identifier of a particular instantiation of that part design. In other words, a part number identifies any particular part as being made to that one unique design; a serial number, when used, identifies a particular part, as differentiated from the next unit that was stamped, machined, or extruded right after it. This distinction is not always clear, as natural language blurs it by typically referring to both part designs, and particular instantiations of those designs, by the same word, "part". Thus if you buy a muffler of P/N 12345 today, and another muffler of P/N 12345 next Tuesday, you have bought "two copies of the same part", or "two parts", depending on the sense implied.User part numbers versus manufacturing part numbers (MPN)
A business using a part will often use a different part number than the various manufacturers of that part do. This is especially common for catalog hardware, because the same or similar part design might be made by many corporations.For example, when referring to a "Hardware, screw, machine, 4-40, 3/4" long, Phillips":
- Manufacturer A uses part number "4-40-3/4"-pan-phil",
- Manufacturer B uses part number "100-440-0.750-3434-A".
- Manufacturer C uses part number "TSR-1002".
- it would imply that one manufacturer is acceptable and the other ones aren't, and,
- it wishes to use a consistent :wikt:format|format for the part numbers of all of the parts it uses.
In such a system, the user may use the part number "HSC0424PP" for that screw.
There are also some national and industry-association initiatives which help producers and consumers codify the product based on a unified scheme to establish a common language between industrial and commercial sectors. For example:
- The Iranian national classification and codification system known as Irancode is a 16 digit code to codify the products in a nationally unified manner.
- The U.S. government, and most especially its Department of Defense, has standardized various part numbering systems over the decades for it and its suppliers to use, such as the AN and MS hardware classification and numbering systems.
- The Aerospace Industries Association maintains the NAS system, which is gradually replacing the AN and MS systems.
- The ASME provides a codification of fastener specifications in B18.24 Part Identifying Number Code System Standard for B18 Fastener Products.
Significant versus non-significant part numbers
- In a significant part numbering system, the part numbers are assigned intelligently, according to an encoding system, and thus they give an indication of salient characteristics of the component. For example, a screw may have the part number "HSC0424PP"; in this case, the letters indicate characteristics of the component:
- *H = "Hardware"
- *S = "Machine Screw"
- *C0424 = "4-40, 3/4" long"
- *PP = "Panhead Phillips"
- In a non-significant part numbering system, part numbers are assigned in some other fashion, such as sequentially or arbitrarily. For example, a screw may have the part number "1002", which may not tell the user anything about its thread size, length of shank, or drive type.
Dash numbers
There is a strong tradition in part numbering practice, in use across many corporations, to use suffixes consisting of a "dash" followed by a number comprising 1 or 2 digits. These suffixes are called [|dash numbers], and they are a common way of logically associating a set of detail parts or subassemblies that belong to a common assembly or part family. For example, the part numbers 12345-1, 12345-2, and 12345-3 are three different dash numbers of the same part family.In precise typographical and character encoding terms, it is actually a hyphen, not a dash, that is usually used; but the word "dash" is firmly established in the spoken and written usage of the engineering and manufacturing professions; "dash number", not "hyphen number", is the standard term. This comes from the era before computers, when most typographical laypeople did not need to differentiate the characters or glyphs precisely.
Some companies follow a convention of circling the dash numbers on a drawing, such as in view designators and subpart callouts.
Relationship of part numbers to drawing numbers
Another widespread tradition is using the drawing number as the root of the part number; in this tradition, the various dash-number parts usually appear as views on the self-same drawing. For example, drawing number 12345 may show an assembly, P/N 12345-1, which comprises detail parts -2, -3, -4, -8, and -11. Even drawings for which there is currently only one part definition existing will often designate that part with a part number comprising drawing number plus -1. This is to provide extensibility of the part numbering system, in anticipation of a day when it might be desired to add another part definition to the family, which can then become -2, followed by -3, and so on.Some corporations make no attempt to encode part numbers and drawing numbers with common encoding; they are paired arbitrarily.
Parametric families of parts, and tabulations of part numbers with parameter values
Often more than one version of a part design will be specified on one drawing. This allows for easy updating of one drawing that covers a family of parts, and it keeps the specifications for similar parts on one drawing. For example:Dash number | Length | Thread size | Drive style |
-01 | 10 mm | M6 | Philips |
-02 | 15 mm | M6 | Philips |
-03 | 20 mm | M6 | Philips |
A common application of tabulation of part families is multiple dimensions within a general design, e.g. bushing:
Dash number | Length | Outer diameter | Inner diameter |
-01 | 10 mm | 10 mm | 8 mm |
-02 | 10 mm | 12 mm | 8 mm |
-03 | 10 mm | 12 mm | 10 mm |
Design modification suffixes
It is a common concept in many corporations to add certain suffixes beyond, or in place of, the regular dash numbers, in order to designate a part that is mostly in conformance with the part design, but intentionally lacks certain features. The suffixes are usually "intelligent", that is, they use an encoding system, although the encoding systems are usually corporation-specific.An example of such a design modification suffix is adding "V" or "Z" to the end of the part number to designate the variant of the part that is purchased "less paint", "less plating", "with the holes not yet drilled", "intentionally oversize by.01mm", or any of countless other modifications. The intent is usually that the feature in question will be added at a higher assembly level; or that maintenance workers in the field will choose from a kit of undersize and oversize parts in order to achieve a certain fit.
Sometimes the terms "engineering part number" and "manufacturing part number" are used to differentiate the "normal" or "basic" part number from the modification-suffixed part number.
Symmetrical parts
Many assemblies with reflection symmetry, such as the fuselages and wings of aircraft, the hulls of ships and boats, and the bodies of cars and trucks, require matched pairs of parts that are identical, or nearly identical, except for being mirror images of each other. Often these related parts are designated left-hand and right-hand parts. It is a common practice to give them sequential dash numbers, or -LH and -RH part number suffixes. It is also not uncommon to show only one of them on the drawing, and to define the symmetrical counterpart simply by stating that it is "opposite". Common notations include "left-hand shown, right-hand opposite" or "-1, LH ; -2, RH ".Phantom parts
The term phantom part is sometimes used to describe a series of parts that collectively make up an assembly or subassembly. This concept is helpful in the database management of engineering and production when it is useful to think of a certain combination of subparts as "one part" for ordering, production, or billing purposes.Synthetic parts
It is common in the engineering of parts, subassemblies, and higher assemblies to treat the definition of a certain part as a very well-defined concept, with every last detail controlled by the engineering drawing or its accompanying TDP documents. This is necessary because of the separation of concerns that often exists in production, in which the maker of each part does not have all the information needed to decide whether any particular small variation is acceptable or not. The sizes of fillets and edge breaks are common examples of such details where production staff must say, "it may easily be trivial, but it could possibly matter, and we're not the ones who can tell which is true in this case".However, a challenge to this paradigm is that sometimes it is necessary to obtain a part that is "mostly like" part A but that also incorporates some of the features of parts B and C. For example, a new variant of model of next-higher assembly may require this. Although this "blending" of part designs could happen very informally in a non-mass-production environment, it requires more forethought when the concerns are more thoroughly separated. In the latter case, a new part definition, termed a synthetic part, is created. Ideally it is then formally defined with a new drawing; but often in the imperfect reality of the business world, to save time and expense, an improvised TDP will be prepared for it consisting of several existing drawings and some notes about which features to synthesize.