A 'tie rod' is a slender structural rod used as a
tie and (in most applications) capable of carrying
tensile loads only.
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Subtypes and examples of applications
★ In
airplane structures, tie rods are sometimes used in the fuselage or wings.
★ Tie rods are often used in
steel structures, such as
bridges, industrial buildings,
tanks,
towers, and
cranes.
★ Sometimes tie rods are retrofitted to bowing or subsiding masonry walls (brick, block, stone, etc.) to keep them from succumbing to lateral forces.
★ The
rebar used in
reinforced concrete is not referred to as a "tie rod", but it essentially performs some of the same tension-force-counteracting purposes that tie rods perform.
★ In
automobiles, the ''tie rods'' are part of the
steering mechanism. They differ from the archetypical tie rod by both pushing and pulling (operating in both tension and compression).
★ In
steam locomotives, a ''tie rod'' is a rod that connects several
driving wheels to transmit the power from the
connecting rod.
★ Tie rods known as ''sag rods'' are sometimes used in connection with
purlins to take the component of the loads which is parallel to the
roof.
★ The
spokes of
bicycle wheels are tie rods.
Physics and engineering principles
In general, because the ratio of the archetypical tie rod's length to the
radius of gyration of its
cross section is usually very large, it would buckle under the action of
compressive forces. The working strength of a tie rod is the product of the allowable working stress and the rod's minimum cross-sectional area.
If
threads are cut into a
cylindrical rod, that minimum area occurs at the root of the thread. Often rods are upset (made thicker at the ends) so that the tie rod does not become weaker when threads are cut into it.
Tie rods may be connected at the ends in various ways, but it is desirable that the strength of the connection should be at least equal to the strength of the rod. The ends may be threaded and passed through drilled holes or
shackles and retained by
nuts screwed on the ends. If the ends are threaded right- and left-hand the length between points of loading may be altered. This furnishes a second method for
pre-tensioning the rod at will by turning it in the nuts so that the length will be changed. A
turnbuckle will accomplish the same purpose. The ends may also be
swaged to receive a fitting which is connected to the supports. Another way of making end connections is to forge an eye or hook on the rod.
A famous
structural failure involving tie rods is the
Hyatt Regency walkway collapse in
Kansas City,
Missouri, on
July 17 1981. The hotel had a large atrium with three walkways crossing it suspended from tie rods. Design and construction errors led to several of the walkways collapsing, killing 114 people and injuring over 200.
See also
★
Reinforced concrete
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