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gears

Gears are rotating machine elements with teeth that mesh with another gear to transmit torque and angular motion. They are used to change speed, torque, and the direction of a power source. A gear train consists of two or more gears in mesh; the ratio of output to input speed is the inverse of the gear tooth count ratio or diameter ratio.

Types include spur gears, which have straight teeth and are used for simple, high-load transmissions; helical

Geometry and sizing: The pitch circle is the effective mesh surface. Gear ratio equals the number of

Manufacture and materials: Common materials include steel, cast iron, bronze, and plastics. Manufacturing methods include hobbing,

Applications: Gears are fundamental in clocks, automotive transmissions, industrial machinery, robotics, conveyors, and many consumer and

gears,
with
angled
teeth
that
run
more
smoothly
and
quietly
but
generate
axial
thrust;
bevel
gears,
which
transmit
motion
between
intersecting
shafts;
and
worm
gears,
where
a
screw-like
worm
meshes
with
a
gear
to
achieve
large
reductions
in
a
compact
package.
Internal
gears
have
teeth
on
the
inside
of
a
ring
and
mesh
with
external
gears.
teeth
on
the
driven
gear
divided
by
the
number
of
teeth
on
the
driver
gear.
Sizing
uses
modules
(metric)
or
diametral
pitch
(imperial).
Tooth
geometry
is
defined
by
pitch,
addendum,
dedendum,
and
clearance,
with
a
typical
pressure
angle
around
20
degrees.
milling,
shaping,
and
grinding,
often
followed
by
heat
treatment
and
surface
finishing.
Proper
lubrication
and
alignment
reduce
wear
and
improve
efficiency.
Gear
systems
can
achieve
high
efficiency,
though
efficiency
varies
by
type
and
load,
with
worm
gears
generally
lower
due
to
sliding
contact.
industrial
devices
requiring
controlled
torque
and
speed.