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Screws come in a variety of shapes and sizes for
different purposes. U.S. quarter coin (diameter 24
mm) shown for scale.
ScrewFrom Wikipedia, the free encyclopedia
This article is about the fastener. For the screw as a simple machine, see Screw (simple machine). For other
uses, see Screw (disambiguation).
A screw, or bolt, is a type of fastener characterized by a helicalridge, known as an external thread or just thread, wrappedaround a cylinder. Some screw threads are designed to mate witha complementary thread, known as an internal thread, often inthe form of a nut or an object that has the internal thread formedinto it. Other screw threads are designed to cut a helical groove ina softer material as the screw is inserted. The most common usesof screws are to hold objects together and to position objects.
A screw will almost always have a head, (a set screw is anexample of a screw without a head) which is a specially formedsection on one end of the screw that allows it to be turned, ordriven. Common tools for driving screws include screwdrivers andwrenches. The head is usually larger than the body of the screw,which keeps the screw from being driven deeper than the length ofthe screw and to provide a bearing surface. There areexceptions; for instance, carriage bolts have a domed head that is not designed to be driven; set screws often have a headsmaller than the outer diameter of the screw; J-bolts have a J-shaped head which is not designed to be driven, but rather isusually sunk into concrete allowing it to be used as an anchor bolt. The cylindrical portion of the screw from the underside
of the head to the tip is known as the shank; it may be fully threaded or partially threaded.[1] The distance between eachthread is called the "pitch".
The majority of screws are tightened by clockwise rotation, which is termed a right-hand thread; a common mnemonicdevice for remembering this when working with screws or bolts is "righty-tighty, lefty-loosey." Screws with left-handthreads are used in exceptional cases. For example, when the screw will be subject to counterclockwise torque (whichwould work to undo a right-hand thread), a left-hand-threaded screw would be an appropriate choice. The left side pedalof a bicycle has a left-hand thread.
More generally, screw may mean any helical device, such as a clamp, a micrometer, a ship's propeller or an Archimedes'screw water pump.
Contents
1 Differentiation between bolt and screw
1.1 Machine screws
1.2 Hex cap screws
1.3 Lug bolts and head bolts
1.4 Lag screw
1.5 Government standards
1.6 Historical issue
1.7 Controlled vocabulary versus natural language
1.7.1 Other distinctions
2 Types of screw and bolt
2.1 Fasteners with a tapered shank (self-tapping screws)
2.2 Fasteners with a non-tapered shank
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A carriage bolt with square nut
2.3 Fasteners with built in washers
2.4 Other threaded fasteners
2.4.1 Superbolt, or multi-jackbolt tensioner
2.4.2 Hanger screw or hanger bolt
2.4.3 Bone screws
2.5 List of abbreviations for types of screws
3 Materials
4 Bolted joints
5 Mechanical classifications
5.1 Inch
5.2 Metric
6 Screw head shapes
7 Types of screw drives
8 Tools
9 Thread standards
9.1 ISO metric screw thread
9.2 Whitworth
9.3 British Association screw thread
9.4 Unified Thread Standard
10 Manufacture
11 History
12 Other fastening methods
13 See also
14 References
14.1 Bibliography
15 External links
Differentiation between bolt and screw
There is no universally accepted distinction between a screw and a bolt.Machinery's Handbook describes the distinction as follows:
A bolt is an externally threaded fastener designed for insertion throughholes in assembled parts, and is normally intended to be tightened orreleased by torquing a nut. A screw is an externally threaded fastenercapable of being inserted into holes in assembled parts, of mating with apreformed internal thread or forming its own thread, and of being tightened or released by torquing the head.An externally threaded fastener which is prevented from being turned during assembly and which can betightened or released only by torquing a nut is a bolt. (Example: round head bolts, track bolts, plow bolts.)An externally threaded fastener that has thread form which prohibits assembly with a nut having a straight
thread of multiple pitch length is a screw. (Example: wood screws, tapping screws.)[2]
This distinction is consistent with ASME B18.2.1 and some dictionary definitions for screw[3][4] and bolt.[5][6][7]
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A structural bolt with a
hex nut and washer.
Lag screws, also called lag bolts.
The issue of what is a screw and what is a bolt is not completely resolved with Machinery's Handbook distinction,
however, because of confounding terms, the ambiguous nature of some parts of the distinction, and usage variations.[8]
Some of these issues are discussed below:
Machine screws
ASME standards specify a variety of "Machine Screws"[9] in diameters ranging up to 0.75 in (19.05 mm). These fastenersare often used with nuts as well as driven into tapped holes. They might be considered a screw or a bolt based on theMachinery's Handbook distinction. In practice, they tend to be mostly available in smallersizes and the smaller sizes are referred to as screws or less ambiguously as machine screws,although some kinds of machine screw can be referred to as stove bolts.
Hex cap screws
ASME standard B18.2.1-1996 specifies Hex Cap Screws that range in size from 0.253 in(6.3576.20 mm) in diameter. These fasteners are very similar to hex bolts. They differmostly in that they are manufactured to tighter tolerances than the corresponding bolts.Machinery's Handbook refers parenthetically to these fasteners as "Finished Hex
Bolts".[10] Reasonably, these fasteners might be referred to as bolts, but based on the USgovernment document Distinguishing Bolts from Screws, the US government might
classify them as screws because of the tighter tolerance.[11] In 1991 responding to an influx
of counterfeit fasteners Congress passed PL 101-592[12] "Fastener Quality Act" This
resulted in the rewriting of specifications by the ASME B18 committee. B18.2.1[13] was re-written and as a result they eliminated the "Finished Hex Bolts" and renamed them the "HexCap Screw"a term that had existed in common usage long before, but was now alsobeing codified as an official name for the ASME B18 standard.
Lug bolts and head bolts
These terms refer to fasteners that are designed to be threaded into a tapped hole that is in part of the assembly and sobased on the Machinery's Handbook distinction they would be screws. Here common terms are at variance with
Machinery's Handbook distinction.[14][15]
Lag screw
Lag screws, also sometimes called lag bolts, are basically "large wood screws".Square lag screws and hex lag screws are covered by ASME B18.2.1. Atypical lag bolt can range in diameters from 1/4" to 1 1/4", and lengths from 1/4"to 6" or longer, with coarse threads of a wood-screw or sheet-metal-screwthreadform (but larger). The head is typically an external hex. The materials areusually carbon steel substrate with a coating of zinc galvanization (for corrosionresistance). The zinc coating may be bright (electroplated), yellow(electroplated), or dull gray hot-dip galvanized. Lag bolts are used to lagtogether lumber framing, to lag machinery feet to wood floors, and other heavycarpentry applications. These fasteners are clearly "screws" when defined by theMachinery's Handbook distinction. The term "lag bolt" has been replaced by
"lag screw" in the Machinery's Handbook.[16] However, in the minds of mosttradesmen, they are "bolts", simply because they are large, with hex or squareheads. In the United Kingdom, lag bolts/screws are known as coach screwsthough this can also refer to carriage bolts (round head). The names lag screwand lag bolt came from an early principal use of such fasteners: the fastening of
lags such as barrel staves and other similar parts.[17]
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Another view.
Government standards
The US government made an effort to formalize the difference between a bolt
and a screw because different tariffs apply to each.[18] The document seems tohave no significant effect on common usage and does not eliminate theambiguous nature of the distinction between screws and bolts for some threadedfasteners. The document also reflects (although it probably did not originate)significant confusion of terminology usage that differs between thelegal/statutory/regulatory community and the fastener industry. Thelegal/statutory/regulatory wording uses the terms "coarse" and "fine" to refer tothe tightness of the tolerance range, referring basically to "high-quality" or "low-quality", but this is a poor choice of terms, because those terms in the fastenerindustry have a different meaning (referring to the steepness of the helix's lead).
Historical issue
Old USS and SAE standards defined cap screws as fasteners with shanks that were threaded to the head and bolts as
fasteners with shanks that were partially unthreaded.[19] The relationship of this rule to the idea that a bolt by definitiontakes a nut is clear (because the unthreaded section of the shank, which is called the grip, was expected to pass throughthe substrate without threading into it). This is now an obsolete distinction.
Controlled vocabulary versus natural language
The distinctions above are enforced in the controlled vocabulary of standards organizations. Nevertheless, there aresometimes differences between the controlled vocabulary and the natural language use of the words by machinists, automechanics and others. These differences reflect linguistic evolution shaped by the changing of technology over centuries.The words bolt and screw have both existed since before today's modern mix of fastener types existed, and the naturalusage of those words has evolved retronymously in response to the technological change. (That is, the use of words asnames for objects changes as the objects themselves change.) Non-threaded fasteners predominated until the advent ofpractical, inexpensive screw-cutting in the early 19th century. The basic meaning of the word screw has long involved theidea of a helical screw thread, but the Archimedes screw and the screw gimlet (like a corkscrew) preceded the fastener.
The word bolt is also a very old word, and it was used for centuries to refer to metal rods that passed through thesubstrate to be fastened on the other side, often via nonthreaded means (clinching, forge welding, pinning, wedging, etc.).The connection of this sense to the sense of a door bolt or the crossbow bolt is apparent. In the 19th century, boltsfastened via screw threads were often called screw bolts in contradistinction to clench bolts.
In common usage, the distinction (not rigorous) is often that screws are smaller than bolts, and that screws are generallytapered while bolts are not. For example, cylinder head bolts are called "bolts" (at least in North American usage) despitethe fact that by some definitions they ought to be called "screws". Their size and their similarity to a bolt that would take anut seem linguistically to overrule any other factors in this natural word choice proclivity.
Other distinctions
Bolts have been defined as headed fasteners having external threads that meet an exacting, uniform bolt threadspecification (such as ISO metric screw thread M, MJ, Unified Thread Standard UN, UNR, and UNJ) such that they canaccept a non-tapered nut. Screws are then defined as headed, externally threaded fasteners that do not meet the abovedefinition of bolts. These definitions of screw and bolt eliminate the ambiguity of the Machinery's handbook distinction.And it is for that reason, perhaps, that some people favor them. However, they are neither compliant with common usageof the two words nor are they compliant with formal specifications.
A possible distinction is that a screw is designed to cut its own thread; it has no need for access from or exposure to theopposite side of the component being fastened to. This definition of screw is further reinforced by the consideration of thedevelopments of fasteners such as Tek Screws for roof cladding, self-drilling and self-tapping screws for various metal
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fastening applications, roof batten screws to reinforce the connection between the roof batten and the rafter, deckingscrews etc. On the other hand, a bolt is the male part of a fastener system designed to be accepted by a pre-equippedsocket (or nut) of exactly the same thread design.
Types of screw and bolt
Threaded fasteners either have a tapered shank or a non-tapered shank. Fasteners with tapered shanks are designed toeither be driven into a substrate directly or into a pilot hole in a substrate. Mating threads are formed in the substrate asthese fasteners are driven in. Fasteners with a non-tapered shank are designed to mate with a nut or to be driven into atapped hole.
Fasteners with a tapered shank (self-tapping screws)
American name British name Description
chipboard screw
particle board screw
Similar to a drywall screw except that it has
a thinner shaft and provides better resistance
to pull-out in particle board, while offset
against a lower shear strength. The threads
on particle board screws are asymmetrical.
concrete screw
Tapcons
masonry screwconfast screw
blue screw
self-tapping screw
Titen
A stainless or carbon steel screw for
fastening wood, metal, or other materials into
concrete or masonry. Concrete screws are
commonly blue in color, with or without
corrosion coating.[20] They may either have
a Phillips flat head or a slotted hex washer
head. Heads sizes range from 0.1875 to
0.375 in (4.763 to 9.525 mm) and lengthsfrom 1.25 to 5 in (32 to 127 mm). Typically
an installer uses a hammer drill to make a
pilot hole for each concrete screw.
deck screw
Similar to drywall screw except that it has
improved corrosion resistance and is
generally supplied in a larger gauge. Most
deck screws have a type-17 (auger type)
thread cutting tip for installation into decking
materials. They have bugle heads that allows
the screw to depress the wood surface
without breaking it.
double ended screw
dowel screw
hanger bolt
handrail bolt
Similar to a wood screw but with two
pointed ends and no head, used for making
hidden joints between two pieces of wood.
A hanger bolt has wood screw threads on
one end and machine threads on the other. A
hanger bolt is used when it is necessary to
fasten a metal part to a wood surface.
Specialized screw with a bugle head that is
designed to attach drywall to wood or metal
studs, however it is a versatile construction
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drywall screw fastener with many uses. The diameter of
drywall screw threads is larger than the shaft
diameter.
eye screw
screw eye
Screw with a looped head. Larger ones are
sometimes called lag eye screws. Designed
to be used as attachment point, particularly
for something that is hung from it.
lag bolt
lag screw[21]coach screw
Similar to a wood screw except that it isgenerally much larger running to lengths up to
15 in (381 mm) with diameters from 0.25
0.5 in (6.3512.70 mm) in commonly
available (hardware store) sizes (not
counting larger mining and civil engineering
lags and lag bolts) and it generally has a
hexagonal drive head. Lag bolts are
designed for securely fastening heavy timbers
(post and beams, timber railway trestles and
bridges) to one another, or to fasten wood
to masonry or concrete.
Lag bolts are usually used with an expandinginsert called a lag in masonry or concretewalls, the lag manufactured with a hard metaljacket that bites into the sides of the drilledhole, and the inner metal in the lag being asofter alloy of lead, or zinc alloyed with softiron. The coarse thread of a lag bolt and lagmesh and deform slightly making a securenear water tight anti-corroding mechanicallystrong fastening.
mirror screw
This is a flat-head wood screw with a
tapped hole in the head, which receives a
screw-in chrome-plated cover. It is usually
used to mount a mirror.
sheet metal screw
Has sharp threads that cut into a material
such as sheet metal, plastic or wood. They
are sometimes notched at the tip to aid in
chip removal during thread cutting. The
shank is usually threaded up to the head.
Sheet metal screws make excellent fastenersfor attaching metal hardware to wood
because the fully threaded shank provides
good retention in wood.
A Twinfast screw is a type of screw with
two threads (i.e. a twin-start screw), so that
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Twinfast screw
it can be driven twice as fast as a normal (i.e.
single-start) screw with the same pitch.[22]
Dry wall screws designated as fine are the
most common screws to use the twinfast
style of threads.[23]
wood screw
A metal screw with a sharp point designed
to attach two pieces of wood together.
Wood screws are commonly available with
flat, pan or oval-heads. A wood screw
generally has a partially unthreaded shank
below the head. The unthreaded portion of
the shank is designed to slide through the topboard (closest to the screw head) so that it
can be pulled tight to the board it is being
attached to.
Security head screw
These screws are use for security purpose.
The head of this type of screw is impossible
to reverse. It requires special tools or
mechanisms like spanners, tri-wings, torxes,
square drivers, etc. In some screws, the
head can be removed by breaking it after
installing the screw.
Fasteners with a non-tapered shank
American name British name Description
anchor bolt
A special type of bolt that is set in
wet concrete, with the screw
threads protruding above the
concrete surface.
breakaway bolt
A breakaway bolt is a bolt with a
hollow threaded shank, which is
designed to break away upon
impact. Typically used to fasten
fire hydrants, so they will break
away when hit by a car. Also
used in aircraft to reduce weight.
The term cap screw refers to
many different things at different
times and places. Currently, it
most narrowly refers to a style of
head (see the gallery below).
More broadly, and more
commonly, it refers to the groupof screws: shoulder screws, hex
heads, counter-sunk heads, button
heads, and fillister heads. In the
US, cap screws are defined by
ASME B18.6.2 and ASME
B18.3.[24][25] In the past, the term
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Narrow definition
Wide definition
cap screw
cap screw, in general, referred to
screws that were supposed to be
used in applications where a nut
was not used, however the
characteristics that differentiated it
from a bolt vary over time. In
1910, Anthony defined it as screw
with a hex head that was thicker
than a bolt head, but the distance
across the flats was less than a
bolt's.[26] In 1913, Woolley andMeredith defined them like
Anthony, but gave the following
dimensions: hex head cap screws
up to and including 716 inch
(11.1125 mm) have a head that is316 inch (4.7625 mm) larger than
the shank diameter; screws
greater than 12 inch (12.7 mm) in
diameter have a head that is 14inch (6.35 mm) larger than the
shank. Square head cap screws
up to and including 34 inch
(19.05 mm) have a head 18 inch
(3.175 mm) larger than the shank;
screws larger than 34 inch
(19.05 mm) have a head 14 inch
(6.35 mm) larger than the
shank.[27] In 1919, Dyke definedthem as screws that are threaded
all the way to the head.[19]
A socket cap screw, also knownas a socket head capscrew,socket screw, "set screw" orAllen bolt, is a type of cap screwwith a cylindrical head andhexagonal drive hole. The termsocket head capscrew typicallyrefers to a type of threadedfastener whose head diameter isnominally 1.5 times that of thescrew shank (major) diameter,with a head height equal to theshank diameter (1960 seriesdesign). Forged heat-treated alloyexamples are high strengthfasteners intended for the mostdemanding mechanicalapplications, with special alloyformulations available that are
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capable of maintaining strength attemperatures in excess of 1000degrees F (587 degrees C).
In addition to the 1960 seriesdesign, other head designs includelow head, button head and flathead, the latter designed to beseated into countersunk holes. Ahex key (sometimes referred to asan Allen wrench or Allen key) orhex driver is required to tightenor loosen a socket screw. Sockethead capscrews are commonlyused in assemblies that do notprovide sufficient clearance for aconventional wrench or socket.
carriage boltCup head bolt, Coach
bolt
A carriage bolt, also known as a
coach bolt, has a domed or
countersunk head, and the shankis topped by a short square
section under the head. The
square section grips into the part
being fixed (typically wood),
preventing the bolt from turning
when the nut is tightened. A rib
neck carriage bolt has several
longitudinal ribs instead of the
square section, to grip into a metal
part being fixed.
elevator bolt
An elevator bolt is a bolt similar to
a carriage bolt, except the head is
thin and flat. There are many
variations. Some do not have a
square base, but rather triangular
sections of the flat head are folded
down to form "fangs" that cut into
wood and hold it secure.[28]
eye boltAn eye bolt is a bolt with a looped
head.
hex cap screw
hex bolt
A hex cap screw is a cap screw
with a hexagonal head, designed
to be driven by a wrench
(spanner). An ASME B18.2.1
compliant cap screw has
somewhat tighter tolerances than a
hex bolt for the head height and
the shank length. The nature of the
tolerance difference allows an
ASME B18.2.1 hex cap screw toalways fit where a hex bolt is
installed but a hex bolt could be
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slightly too large to be used where
a hex cap screw is designed in.
Fine adjustment screw
The term fine adjustment screw
typically refers to screws with
threads from 40-100 TPI
(Threads Per Inch) (0.5mm to
0.2mm pitch) and ultra fine
adjustment screw has been used
to refer to 100-254 TPI (0.2mm
to 0.1mm pitch). These screws
are most frequently used in
applications where the screw is
used to control fine motion of an
object.
machine screw
A machine screw is generally a
smaller fastener (less than 14 inch
(6.35 mm) in diameter) threaded
the entire length of its shank that
usually has a recessed drive type
(slotted, Phillips, etc.). Machine
screws are also made with socket
heads (see above), in which case
they may be referred to as socket
head machine screws.
plow bolt
A plow bolt is bolt similar to a
carriage bolt, except the head isflat or concave, and the underside
of the head is a cone designed to
fit in a countersunk recess. There
are many variations, with some
not using a square base, but rather
a key, a locking slot, or othermeans. The recess in the mating
part must be designed to accept
the particular plow bolt. ASME
B18.9 standard recommends a
No. 3 head (round countersunk
head square neck) plow bolts and
No. 7 head (round countersunk
reverse key head) plow bolts for
new designs. The necessary
dimensions for the head styles can
be found in the standard.[29][30][31]
self-drilling screw
Teks screw
Similar to a sheet metal screw, but
it has a drill-shaped point to cut
through the substrate to eliminate
the need for drilling a pilot hole.
Designed for use in soft steel or
other metals. The points are
numbered from 1 through 5, the
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larger the number, the thickermetal it can go through without a
pilot hole. A 5 point can drill a
0.5 in (12.7 mm) of steel, forexample.
self-tapping machinescrew
A self-tapping machine screw is
similar to a machine screw except
the lower part of the shank is
designed to cut threads as the
screw is driven into an untappedhole. The advantage of this screw
type over a self-drilling screw is
that, if the screw is reinstalled,
new threads are not cut as the
screw is driven.
set bolt tap bolt
A bolt that is threaded all the way
to the head. An ASME B18.2.1
compliant set/tap bolt has the
same tolerances as an ASME
B18.2.1 compliant hex cap screw.
set screw grub screw
A set screw is generally a
headless screw but can be any
screw used to fix a rotating part to
a shaft. The set screw is driven
through a threaded hole in the
rotating part until it is tight against
the shaft. The most often used
type is the socket set screw,
which is tightened or loosened
with a hex key.
shoulder bolt
shoulder screwstripper bolt
A shoulder screw differs from
machine screws in that the shank
is held to a precise diameter,
known as the shoulder, and the
threaded portion is smaller in
diameter than the shoulder.
Shoulder screw specifications call
out the shoulder diameter,
shoulder length, and threaded
diameter; the threaded length is
fixed, based on the threaded
diameter, and usually quite short.
Shoulder screws can be
manufactured in many materials
such as alloy heat-treated steel for
maximum strength and wear
resistance and stainless steel for its
corrosion-resistance and non-
magnetic properties. Common
applications for shoulder screws
include rotating mechanism joints,
linkage pivots, and guides for the
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stripper plate of a metal forming
die set. In the latter application,
the term stripper bolt is often
substituted. Stainless steel
shoulder screws are used with
linear motion devices such asbearings, as guides and as pivots
in electronic and other critical
mechanical applications.
stove bolt
A stove bolt is a type of machine
screw that has a round or flat
head and is threaded to the head.
They are usually made of low
grade steel, have a slot or Phillips
drive, and are used to join sheet
metal parts using a hex or square
nut.[32]
tension control bolt
A tension control bolt (TC bolt) is
a heavy duty bolt used in steel
frame construction. The head is
usually domed and is not designed
to be driven. The end of the shank
has a spline on it which is engaged
by a special power wrench which
prevents the bolt from turning
while the nut is tightened. When
the appropriate torque is reached
the spline shears off.
thread rolling screws
These have a lobed (usually
triangular) cross-section. They
form threads in a pre-existing hole
in the mating workpiece by
pushing the material outward
during installation. In some cases
the properly prepared hole in
sheetmetal uses an extruded hole.The extrusion forms a lead-in and
extra thread length for improved
retention. Thread rolling screws
are often used where loose chips
formed by a thread cutting
operation cannot be tolerated.
Fasteners with built in washers
A fastener with a built in washer is called a SEM or SEMS, short for pre-asSEMbled.[33][34] It could be fitted on either atapered or non-tapered shank.
Other threaded fasteners
Superbolt, or multi-jackbolt tensioner
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A superbolt, or multi-jackbolt tensioner is an alternative type of fastener that retrofits or replaces existing nuts, bolts, orstuds. Tension in the bolt is developed by torquing individual jackbolts, which are threaded through the body of the nut andpush against a hardened washer. Because of this, the amount of torque required to achieve a given preload is reduced.Installation and removal of any size tensioner is achieved with hand tools, which can be advantageous when dealing withlarge diameter bolting applications.
Hanger screw or hanger bolt
A hanger screw is a headless fastener that has machine screw threads on one end and self-tapping threads on the otherdesigned to be driven into wood or another soft substrate. Often used for mounting legs to tables. Also known as a dowelscrew.
Bone screws
Main article: internal fixation
The field of screws and other hardware for internal fixation within the body is huge and diverse. Like prosthetics, itintegrates the industrial and medicosurgical fields, causing manufacturing technologies (such as machining, CAD/CAM, and3D printing) to intersect with the art and science of medicine. Like aerospace and nuclear power, this field involves someof the highest technology for fasteners, as well as some of the highest prices, for the simple reason that performance,longevity, and quality have to be excellent in such applications. Bone screws tend to be made of stainless steel or titanium,and they often have high-end features such as conical threads, multistart threads, cannulation (hollow core), andproprietary screw drive types (some not seen outside of these applications).
List of abbreviations for types of screws
These abbreviations have jargon currency among fastener specialists (who, working with many screw types all day long,have need to abbreviate repetitive mentions). The smaller basic ones can be built up into the longer ones; for example, ifyou know that "FH" means "flat head", then you may be able to parse the rest of a longer abbreviation containing "FH".
These abbreviations are not universally standardized across corporations; each corporation can coin their own. The moreobscure ones may not be listed here.
The extra spacing between linked terms below helps the reader to see the correct parsing at a glance.
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Abbreviation Expansion Comment
BH button head
BHCS button head cap screw
BHMS button head machine screw
CS cap screw
FH flat head
FHP flat head Phillips
FHPMS flat head Phillips machine screw
FT full threadIn other words, zero grip length (the whole shank is
threaded)
HHCS hex head cap screw
MS machine screw
OH oval head
PH Phillips head
RH round head
RHMS round head machine screw
RHP round head Phillips
RHPMS round head Phillips machine screw
SBHCS socket button head cap screw
SBHMS socket button head machine screw
SH socket head
Although "socket head" could logically refer to almost any
female drive, it refers by convention to hex socket head
unless further specified
SHCS socket head cap screw
SHSS socket head set screw
SS set screw
The abbreviation "SS" more often means stainless steel.
Therefore "SS cap screw" means "stainless steel cap screw"
but "SHSS" means "socket head set screw". As with many
abbreviations, users rely on context to diminish the
ambiguity, although this reliance does not eliminate it.
STS self-tapping screw
Materials
Screws and bolts are usually made of steel. Where great resistance to weather or corrosion is required, like in very smallscrews or medical implants, materials such as stainless steel, brass, titanium, bronze, silicon bronze or monel may be used.
Galvanic corrosion of dissimilar metals can be prevented (using aluminum screws for double-glazing tracks for example) bya careful choice of material. Some types of plastic, such as nylon or polytetrafluoroethylene (PTFE), can be threaded andused for fastenings requiring moderate strength and great resistance to corrosion or for the purpose of electrical insulation.
Often a surface coating is used to protect the fastener from corrosion (e.g. bright zinc plating for steel screws), to impart adecorative finish (e.g. japanning) or otherwise alter the surface properties of the base material.
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Rusty hexagonal bolt heads
Selection criteria of the screw materials include: size, required strength, resistance to corrosion, joint material, cost andtemperature.
Bolted joints
Main article: Bolted joint
The American Institute of Steel Construction (AISC) 13th Edition Steel DesignManual section 16.1 chapter J-3 specifies the requirements for bolted structuralconnections. Structural bolts replaced rivets due to decreasing cost andincreasing strength of structural bolts in the 20th century. Connections areformed with two types of joints: slip-critical connections and bearingconnections. In slip-critical connections, movement of the connected parts is aserviceability condition and bolts are tightened to a minimum requiredpretension. Slip is prevented through friction of the "faying" surface, that is theplane of shear for the bolt and where two members make contact. Becausefriction is proportional to the normal force, connections must be sized with bolts numerous and large enough to provide therequired load capacity. However, this greatly decreases the shear capacity of each bolt in the connection. The second typeand more common connection is a bearing connection. In this type of connection the bolts carry the load through shear andare only tightened to a "snug-fit". These connections require fewer bolts than slip-critical connections and therefore are aless expensive alternative. Slip-critical connections are more common on flange plates for beam and column splices andmoment critical connections. Bearing type connections are used in light weight structures and in member connectionswhere slip is not important and prevention of structural failure is the design constraint. Common bearing type connectionsinclude: shear tabs, beam supports, gusset plates in trusses.
Mechanical classifications
The numbers stamped on the head of the bolt are referred to the grade of the bolt used in certain application with thestrength of a bolt. High-strength steel bolts usually have a hexagonal head with an ISO strength rating (called propertyclass) stamped on the head. And the absence of marking/number indicates a lower grade bolt with low strength. Theproperty classes most often used are 5.8, 8.8, and 10.9. The number before the point is the ultimate tensile strength inMPa multiplied by 100. The number after the point is the multiplier ratio of yield strength to ultimate tensile strength. Forexample, a property class 5.8 bolt has a nominal (minimum) ultimate tensile strength of 500 MPa, and a tensile yieldstrength of 0.8 times ultimate tensile strength or 0.8(500) = 400 MPa.
Ultimate tensile strength is the stress at which the bolt fails. Tensile yield strength is the stress at which the bolt will receivea permanent set (an elongation from which it will not recover when the force is removed) of 0.2% offset strain. Whenelongating a fastener prior to reaching the yield point, the fastener is said to be operating in the elastic region; whereaselongation beyond the yield point is referred to as operating in the plastic region, since the fastener has suffered permanentplastic deformation.
Mild steel bolts have property class 4.6. High-strength steel bolts have property class 8.8 or above.
The same type of screw or bolt can be made in many different grades of material. For critical high-tensile-strengthapplications, low-grade bolts may fail, resulting in damage or injury. On SAE-standard bolts, a distinctive pattern ofmarking is impressed on the heads to allow inspection and validation of the strength of the bolt. However, low-costcounterfeit fasteners may be found with actual strength far less than indicated by the markings. Such inferior fasteners are adanger to life and property when used in aircraft, automobiles, heavy trucks, and similar critical applications.
Inch
SAE J429 defines the bolt grades for inch-system sized bolts and screws. It defines them by grade, which ranges from 0
to 8, with 8 being the strongest. Higher grades do not exist within the specification.[35][36] SAE grades 5 and 8 are themost common.
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Head markings and properties for inch-system hex-head cap screws[37]
Head
marking
Grade, material and
condition
Nominal
size
range
(in)
Proof
strength
Yield strength,
min.
Tensile strength,
min.Core
hardness
(Rockwell)ksi MPa ksi MPa ksi MPa
SAE Grade 0[35] Strength and hardness is not specified
SAE grade 1
ASTM A307[38]
Low carbon steel
141-12 33 230 60 410 B70100
ASTM A307 - Grade B[38]
Low or medium carbon steel144
60
minimum
100
maximum
410
minimum
690
maximum
B6995
SAE grade 2
Low or medium carbon steel
1434 55 380 57 390 74 510
B80
100[39]
Greater
than 3433 230 36 250 60 410
B70
100[39]
SAE grade 4[40]
Medium carbon steel; cold
worked
141-12 100 690 115 790
SAE grade 3[38]
Medium carbon steel; cold
worked
141 85 590 100 690 B70100
SAE grade 5
Medium carbon steel; quench
and tempered
141
(inc.)85 590 92 630 120 830 C2534[39]
11-12 74 510 81 560 105 720 C1930[39]
ASTM A449 - Type 1[38]
Medium carbon steel; quench
and tempered
11-12(inc.)
74 510 105 720 C1930
1-123 55 380 90 620Brinell
183235
SAE grade 5.1[41]
Low or medium carbon steel;
quench and tempered
No. 612 85 590 120 830 C2540
SAE grade 5.2[41]
Low carbon martensitic steel;
quench and tempered141 85 590 120 830
C2636
ASTM A449 - Type 2[41]
Low carbon martensitic steel;
quench and tempered
C2534
or ASTM A325 - Type 1[38]
Medium carbon steel; quench
121
(inc.) 85 590 92 630[40] 120 830 C2435
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and tempered
11-12 74 510 82 570[40] 105 720 C1931
[42]
ASTM A325 - Type 3[38]
Atmospheric corrosion
resistant steel; quench and
tempered
121 85 590 92 630[40] 120 830 C2435
11-12 74 510 82 570[40] 105 720 C1931
ASTM A354 - Grade
BC[38]
Medium carbon alloy steel;
quench and tempered
142-12
(inc.)105 720 109 750[40] 125 860 C2636
2-124 95 660 99 680[40] 115 790 C2233
SAE grade 7
Medium carbon alloy steel;
quench and tempered
141-12 105 720 115 790 133 920
SAE grade 8
Medium carbon alloy steel;
quench and tempered
141-12 120 830 130 900 150 1,000 C3238[39]
ASTM A354 - Grade
BD[43]
142-12
(inc.)120 830 130 900[43] 150 1,000 C3339
2-124 105 720 115 790[43] 140 970 C3139
SAE grade 8.2[39]
Medium carbon boron
martensitic steel; fully kilned,
fine grain, quench and
tempered
141 120 830 150 1,000 C3339
ASTM A490 - Type 1[38]
Medium carbon alloy steel;
quench and tempered
121-12 120 830 130
[40] 900
150
minimum
170
maximum
1,000
minimum
1,200
maximum
C3338
[42]
ASTM A490 - Type 3[38]
Atmospheric corrosion
resistant steel; quench and
tempered
18-8 Stainless
Stainless steel with
1719% chromium and
813% nickel
1458
(inc.)
40
minimum
8090
typical
280
minimum
550
620
typical
100125
typical
690860
typical
581
(inc.)40
minimum
4570
typical
280
minimum
310
480
typical
100
typical
690
typical
over 18090
typical
550620
typical
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Metric
The international standard for metric screws is defined by ISO 898, specifically ISO 898-1.
Head markings and properties for metric hex-head cap screws[44]
Head
marking
Grade, material and
condition
Nominal
size range
(mm)
Proof
strength
Yield strength,
min.
Tensile strength,
min.Core
hardness
(Rockwell)MPa ksi MPa ksi MPa ksi
Class 3.6[45] 1.636 180 26 190 28 330 48 B5295
Class 4.6
Low or medium carbon
steel
5100 225 32.6 240 35 400 58 B6795
Class 4.8
Low or medium carbon
steel; fully or partially
annealed
1.616 310 45 340 49 420 61 B7195
Class 5.8
Low or medium carbon
steel; cold worked
524 380 55 420 61 520 75 B8295
Class 8.8[37]
Medium carbon steel;
quench and tempered
Under 16
(inc.)580 84 640 93 800 120
1772
600 87 660 96 830 120 C2334
Class 8.8 low carbon
Low carbon boron steel;
quench and tempered
Class 8.8.3[46]
Atmospheric corrosion
resistant steel; quench and
tempered
ASTM A325M - Type
1[47][48]
Medium carbon steel;
quench and tempered
1236ASTM A325M - Type
3[47][48]
Atmospheric corrosion
resistant steel; quench and
tempered
Class 9.8
Medium carbon steel;
quench and tempered1.616 650 94 720 104 900 130 C2736
Class 9.8 low carbon
Low carbon boron steel;
quench and tempered
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(a) pan, (b) dome (button), (c) round, (d) truss (mushroom), (e) flat
(countersunk), (f) oval (raised head)
Class 10.9
Alloy steel; quench and
tempered
5100
830 120 940 136 1,040 151 C3339
Class 10.9 low carbon
Low carbon boron steel;
quench and tempered
Class 10.9.3[46]
Atmospheric corrosion
resistant steel; quench and
tempered
ASTM A490M - Type
1[47][49]
Alloy steel; quench and
tempered
1236ASTM A490M - Type
3[47][49]
Atmospheric corrosion
resistant steel; quench and
tempered
Class 12.9
Alloy steel; quench and
tempered
1.6100 970 141 1,100 160 1,220 177 C3844
A2[37]
Stainless steel with 17
19% chromium and 8
13% nickel
up to 20
210
minimum
450
typical
30
minimum
65
typical
500
minimum
700
typical
73
minimum
100
typical
ISO 3506-1 A2-50
304 stainless steel-class 50
(annealed)
210 30 500 73
ISO 3506-1 A2-70
304 stainless steel-class 70
(cold worked)
450 65 700 100
ISO 3506-1 A2-80
304 stainless steel-class 80600 87 800 120
Screw head shapes
Pan head
A low disc with chamfered outer edge
Button or dome head
Cylindrical with a rounded top
Round head
A dome-shaped head used for
decoration.[50]
Mushroom or Truss head
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Combination flanged-hex/Phillips-head
screw used in computers
Part of a series on
Screw drive types
Slot (regular)
Phillips
PH
Pozidriv (SupaDriv)
PZ
Square
Robertson (square)
Hex
Hex socket (Allen)
Security hex socket (pin-
in-hex-socket)
Torx
T & TX
Lower-profile dome designed to prevent tampering
Countersunk or flat head
Conical, with flat outer face and tapering inner face allowing it to sink into
the material. The angle of the screw is measured as the full angle of the
cone.
Oval or raised head
A decorative screw head with a countersunk bottom and rounded
top.[50] Also known as "raised countersunk" (UK)
Bugle head
Similar to countersunk, but there is a smooth progression from the shank
to the angle of the head, similar to the bell of a bugle
Cheese head
Disc with cylindrical outer edge, height approximately half the head
diameter
Fillister head
Cylindrical, but with a slightly convex top surface. Height to diameter ratio is larger than cheese head.
Flanged head
A flanged head can be any of the above head styles (except the countersunk styles) with the addition of an
integrated flange at the base of the head. This eliminates the need for a flat washer.
Some varieties of screw are manufactured with a break-away head, which snaps off when adequate torque is applied. Thisprevents tampering and also provides an easily inspectable joint to guarantee proper assembly. An example of this is theshear bolts used on vehicle steering columns, to secure the ignition switch.
Types of screw drives
Main article: List of screw drives
Modern screws employ a wide variety of drive designs, each requiring a differentkind of tool to drive in or extract them. The most common screw drives are theslotted and Phillips in the US; hex, Robertson, and Torx are also common in someapplications, and Pozidriv has almost completely replaced Phillips in Europe. Sometypes of drive are intended for automatic assembly in mass-production of such itemsas automobiles. More exotic screw drive types may be used in situations wheretampering is undesirable, such as in electronic appliances that should not be servicedby the home repair person.
Tools
The hand tool used to drive in most screws is called a screwdriver. A power toolthat does the same job is a power screwdriver; power drills may also be used withscrew-driving attachments. Where the holding power of the screwed joint is critical,torque-measuring and torque-limiting screwdrivers are used to ensure sufficientbut not excessive force is developed by the screw. The hand tool for driving hexhead threaded fasteners is a spanner (UK usage) or wrench (US usage).
Thread standards
Main article: Screw thread
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Security Torx
TR
Tri-Wing
Torq-set
Spanner head
(Snake-eye)
Double-square
Triple square
XZN
Polydrive
One-way
Spline drive
Double hex
Bristol
Pentalobular
An electric driver screws a
self-tapping phillips head
screw into wood
There are many systems for specifying thedimensions of screws, but in much of the worldthe ISO metric screw thread preferred series hasdisplaced the many older systems. Otherrelatively common systems include the BritishStandard Whitworth, BA system (BritishAssociation), and the Unified Thread Standard.
ISO metric screw thread
Main article: ISO metric screw thread
The basic principles of the ISO metric screw thread are defined in internationalstandard ISO 68-1 and preferred combinations of diameter and pitch are listed inISO 261. The smaller subset of diameter and pitch combinations commonly used inscrews, nuts and bolts is given in ISO 262. The most commonly used pitch value foreach diameter is the coarse pitch. For some diameters, one or two additional finepitch variants are also specified, for special applications such as threads in thin-walled pipes. ISO metric screw threads are designated by the letter M followed bythe major diameter of the thread in millimeters (e.g., M8). If the thread does not usethe normal coarse pitch (e.g., 1.25 mm in the case of M8), then the pitch inmillimeters is also appended with a multiplication sign (e.g. "M81" if the screwthread has an outer diameter of 8 mm and advances by 1 mm per 360 rotation).
The nominal diameter of a metric screw is the outer diameter of the thread. Thetapped hole (or nut) into which the screw fits, has an internal diameter which is thesize of the screw minus the pitch of the thread. Thus, an M6 screw, which has a pitchof 1 mm, is made by threading a 6 mm shank, and the nut or threaded hole is madeby tapping threads into a hole of 5 mm diameter (6 mm - 1 mm).
Metric hexagon bolts, screws and nuts are specified, for example, in British Standard BS 4190 (general purpose screws)and BS 3692 (precision screws). The following table lists the relationship given in these standards between the thread sizeand the maximal width across the hexagonal flats (wrench size):
ISO
metric
thread
M1.6 M2 M2.5 M3 M4 M5 M6 M8 M10 M12 M16 M20 M24 M30 M36 M42 M48 M56 M64
Wrench
size
(mm)
3.2 4.0 5.0 5.5 7.0 8.0 10.0 13.0 17.0 19.0 24.0 30.0 36.0 46.0 55.0 65.0 75.0 85.0 95.0
In addition, the following non-preferred intermediate sizes are specified:
ISO metric thread M7 M14 M18 M22 M27 M33 M39 M45 M52 M60 M68
Wrench size (mm) 11 22 27 32 41 50 60 70 80 90 100
Whitworth
Main article: British Standard Whitworth
The first person to create a standard (in about 1841) was the English engineer Sir Joseph Whitworth. Whitworth screwsizes are still used, both for repairing old machinery and where a coarser thread than the metric fastener thread is required.Whitworth became British Standard Whitworth, abbreviated to BSW (BS 84:1956) and the British Standard Fine(BSF) thread was introduced in 1908 because the Whitworth thread was too coarse for some applications. The thread
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angle was 55, and the depth and pitch varied with the diameter of the thread (i.e., the bigger the bolt, the coarser thethread). Spanners for Whitworth bolts are marked with the size of the bolt, not the distance across the flats of the screwhead.
The most common use of a Whitworth pitch nowadays is in all UK scaffolding. Additionally, the standard photographictripod thread, which for small cameras is 1/4" Whitworth (20 tpi) and for medium/large format cameras is 3/8" Whitworth(16 tpi). It is also used for microphone stands and their appropriate clips, again in both sizes, along with "thread adapters"to allow the smaller size to attach to items requiring the larger thread. Note that while 1/4" UNC bolts fit 1/4" BSWcamera tripod bushes, yield strength is reduced by the different thread angles of 60 and 55 respectively.
British Association screw thread
Main article: British Association screw threads
British Association (BA) screw threads, named after the British Association for Advancement of Science, were devised in1884 and standardised in 1903. Screws were described as "2BA", "4BA" etc., the odd numbers being rarely used, exceptin equipment made prior to the 1970s for telephone exchanges in the UK. This equipment made extensive use of odd-numbered BA screws, in orderit may be suspectedto reduce theft. BA threads are specified by British Standard BS93:1951 "Specification for British Association (B.A.) screw threads with tolerances for sizes 0 B.A. to 16 B.A."
While not related to ISO metric screws, the sizes were actually defined in metric terms, a 0BA thread having a 6 mmdiameter and 1 mm pitch. Other threads in the BA series are related to 0BA in a geometric series with the common factors0.9 and 1.2. For example, a 4BA thread has pitch mm (0.65mm) and diameter mm (3.62mm). Although
0BA has the same diameter and pitch as ISO M6, the threads have different forms and are not compatible.
BA threads are still common in some niche applications. Certain types of fine machinery, such as moving-coil meters andclocks, tend to have BA threads wherever they are manufactured. BA sizes were also used extensively in aircraft,especially those manufactured in the United Kingdom. BA sizing is still used in railway signalling, mainly for the terminationof electrical equipment and cabling.
BA threads are extensively used in Model Engineering where the smaller hex head sizes make scale fastenings easier torepresent. As a result many UK Model Engineering suppliers still carry stocks of BA fasteners up to typically 8BA and10BA. 5BA is also commonly used as it can be threaded onto 1/8 rod.
Unified Thread Standard
Main article: Unified Thread Standard
The Unified Thread Standard (UTS) is most commonly used in the United States of America, but is also extensively usedin Canada and occasionally in other countries. The size of a UTS screw is described using the following format: X-Y,where X is the nominal size (the hole or slot size in standard manufacturing practice through which the shaft of the screw
can easily be pushed) and Y is the threads per inch (TPI). For sizes 14 inch and larger the size is given as a fraction; for
sizes less than this an integer is used, ranging from 0 to 16. The integer sizes can be converted to the actual diameter byusing the formula 0.060 + 0.013 * number. For example, a #4 screw is 0.060 + 0.013 * 4 = 0.112 inches in diameter.For most size screws there are multiple TPI available, with the most common being designated a Unified Coarse Thread(UNC or UN) and Unified Fine Thread (UNF or UF).
Manufacture
See also: Threading (manufacturing)
There are three steps in manufacturing a screw: heading, thread rolling, and coating. Screws are normally made fromwire, which is supplied in large coils, or round bar stock for larger screws. The wire or rod is then cut to the proper lengthfor the type of screw being made; this workpiece is known as a blank. It is then cold headed, which is a cold workingprocess. Heading produces the head of the screw. The shape of the die in the machine dictates what features are pressed
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A lathe of 1871, equipped with
leadscrew and change gears for
single-point screw-cutting.
into the screw head; for example a flat head screw uses a flat die. For more complicated shapes two heading processesare required to get all of the features into the screw head. This production method is used because heading has a very highproduction rate, and produces virtually no waste material. Slotted head screws require an extra step to cut the slot in thehead; this is done on a slotting machine. These machines are essentially stripped down milling machines designed toprocess as many blanks as possible.
The blanks are then polished again prior to threading. The threadsare usually produced via thread rolling, however some are cut. Theworkpiece is then tumble finished with wood and leather media todo final cleaning and polishing. For most screws, a coating, such aselectroplating with zinc (galvanizing) or applying black oxide, isapplied to prevent corrosion.
History
While a recent hypothesis attributes the Archimedes' screw to Sennacherib,King of Assyria, archaeological finds and pictorial evidence only appear in theHellenistic period and the standard view holds the device to be a Greekinvention, most probably by the 3rd century BC polymath Archimedes
himself.[51] Though resembling a screw, this is not a screw in the usual sense ofthe word.
Earlier, the screw had been described by the Greek mathematician Archytas ofTarentum (428350 BC). By the 1st century BC, wooden screws werecommonly used throughout the Mediterranean world in screw presses forpressing olive oil from olives and pressing juice from grapes in winemaking.Metal screws used as fasteners were rare in Europe before the 15th century, if
known at all.[52]
Rybczynski has shown[53] that handheld screwdrivers (formerly called"turnscrews" in English, in more direct parallel to their original French name,
tournevis[54]) have existed since medieval times (the 1580s at the latest),although they probably did not become truly widespread until after 1800, oncethreaded fasteners themselves had become commodified, as detailed below.
There were many forms of fastening in use before threaded fasteners becamewidespread. They tended to involve carpentry and smithing rather thanmachining, and they involved concepts such as dowels and pins, wedging,mortises and tenons, dovetails, nailing (with or without clenching the nail ends),forge welding, and many kinds of binding with cord made of leather or fiber,using many kinds of knots. Prior to the mid-19th century, cotter pins or pinbolts, and "clinch bolts" (now called rivets), were used in shipbuilding. Gluesalso existed, although not in the profusion seen today.
The metal screw did not become a common fastener until machine tools for theirmass production were developed toward the end of the 18th century. This
development blossomed in the 1760s and 1770s[55] along two separate paths
that soon converged:[56] the mass production of wood screws [meaning screwsmade of metal to be used in wood] in a specialized, single-purpose, high-volume-production machine tool; and the low-count, toolroom-style production of machine screws (V-thread) with easy selection among various pitches (whatever themachinist happened to need on any given day).
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A Brown & Sharpe single-spindle
screw machine.
The first path was pioneered by brothers Job and William Wyatt of Staffordshire, UK,[57] who patented in 1760 amachine that we might today best call a screw machine of an early and prescient sort. It made use of a leadscrew to guide
the cutter to produce the desired pitch,[57] and the slot was cut with a rotary file while the main spindle held still (presaging
live tools on lathes 250 years later). Not until 1776 did the Wyatt brothers have a wood-screw factory up and running.[57]
Their enterprise failed, but new owners soon made it prosper, and in the 1780s they were producing 16,000 screws a day
with only 30 employees[58]the kind of industrial productivity and output volume that would later be characteristic ofmodern industry but was revolutionary at the time.
Meanwhile, English instrument maker Jesse Ramsden (17351800) wasworking on the toolmaking and instrument-making end of the screw-cutting
problem, and in 1777 he invented the first satisfactory screw-cutting lathe.[59]
The British engineer Henry Maudslay (17711831) gained fame by popularizingsuch lathes with his screw-cutting lathes of 1797 and 1800, containing thetrifecta of leadscrew, slide rest, and change-gear gear train, all in the rightproportions for industrial machining. In a sense he unified the paths of theWyatts and Ramsden and did for machine screws what had already been donefor wood screws, i.e., significant easing of production spurring commodification.His firm would remain a leader in machine tools for decades afterward. Amisquoting of James Nasmyth popularized the notion that Maudslay had invented the slide rest, but this was incorrect;however, his lathes helped to popularize it.
These developments of the 17601800 era, with the Wyatts and Maudslay being arguably the most important drivers,caused great increase in the use of threaded fasteners. Standardization of threadforms began almost immediately, but itwas not quickly completed; it has been an evolving process ever since. Further improvements to the mass production of
screws continued to push unit prices lower and lower for decades to come, throughout the 19th century.[60]
The development of the turret lathe (1840s) and of automatic screw machines derived from it (1870s) drastically reducedthe unit cost of threaded fasteners by increasingly automating the machine tool control. This cost reduction spurred evergreater use of screws.
Throughout the 19th century, the most commonly used forms of screw head (that is, drive types) were simple internal-wrenching straight slots and external-wrenching squares and hexagons. These were easy to machine and served mostapplications adequately. Rybczynski describes a flurry of patents for alternative drive types in the 1860s through
1890s,[61] but explains that these were patented but not manufactured due to the difficulties and expense of doing so at thetime. In 1908, Canadian P. L. Robertson was the first to make the internal-wrenching square socket drive a practicalreality by developing just the right design (slight taper angles and overall proportions) to allow the head to be stamped
easily but successfully, with the metal cold forming as desired rather than being sheared or displaced in unwanted ways.[61]
Practical manufacture of the internal-wrenching hexagon drive (hex socket) shortly followed in 1911.[62][63] In the early1930s, the Phillips-head screw was invented by Henry F. Phillips.
Threadform standardization further improved in the late 1940s, when the ISO metric screw thread and the Unified ThreadStandard were defined.
Precision screws, for controlling motion rather than fastening, developed around the turn of the 19th century, were one of
the central technical advances, along with flat surfaces, that enabled the industrial revolution.[64] They are key componentsof micrometers and lathes.
Other fastening methods
Alternative fastening methods are:
nails
rivets
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pins (dowel pins, taper pins, roll pins, spring pins, cotter pins)
pinned shafts (keyed shafts, woodruff keys, gibb-headed key)
clinker (boat building)#Fastening the centre-line structure
welding
soldering
brazing
joinery (mortise & tenon, dovetailing, box joints, lap joints)
gluing
taping
clinch fastening.
See also
References
Gender of connectors and fasteners
Screw anchor
Tap and die
Die head
Thread angle
Threaded rod (e.g., studs, allthread)
Threading
Thread pitch gauge
List of screw drives
Syndesmotic screw
Dowel
Wall plug
1. ^ Smith 1990, p. 39.
2. ^ Oberg et al. 2000, p. 1492.
3. ^ "Cambridge Dictionary of American English" (http://dictionary.cambridge.org/define.asp?key=screw*1+0&dict=A).
Cambridge University Press. Retrieved 2008-12-03.
4. ^ "allwords" (http://www.allwords.com/query.php?
SearchType=3&Keyword=screw&goquery=Find+it%21&Language=ENG). Retrieved 2008-12-03.
5. ^ "Merriam Webster Dictionary bolt" (http://www.merriam-webster.com/dictionary/bolt). Retrieved 2008-12-03.
6. ^ "Compact Oxford English Dictionary bolt" (http://www.askoxford.com/concise_oed/bolt_1?view=uk). Oxford.
Retrieved 2008-12-03.
7. ^ "Cambridge Advanced Learner's Dictionary bolt" (http://dictionary.cambridge.org/define.asp?key=8680&dict=CALD).
Cambridge University Press. Retrieved 2008-12-03.
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13.
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External links
How the World Got Screwed (http://screwsnutsbolts.wix.com/screwsnutsbolts)
Screws Small Encyclopedia (http://justpaste.it/7ux)
NASA-RP-1228 Fastener Design Manual (http://hdl.handle.net/2060/19900009424) (this link not working)
Imperial/Metric fastening sizes comparison (http://www.baconsdozen.co.uk/tools/conversion%20charts.htm)
"Hold Everything", February 1946, Popular Science" (http://books.google.com/books?
id=2yADAAAAMBAJ&pg=PA149&dq=popular+science+February+1946&hl=en&ei=vOPkTL3jJsnOnAf8toCl
DQ&sa=X&oi=book_result&ct=result&resnum=5&ved=0CDMQ6AEwBA#v=onepage&q=popular%20science
%20February%201946&f=true) article section on screws and screw fastener technology developed during World
War Two
How to feed screws and dowels (http://www.vibratoryfeeders.com/cascade-bowls.html)
Retrieved from "http://en.wikipedia.org/w/index.php?title=Screw&oldid=607495163"
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