2.5—Anchorage methods and materials

2.5—Anchorage methods and materials
Anchors are often used in conjunction with supplemental
reinforcement to prevent new repairs from dislodging from
parent concrete in the event of a bond failure. They are
commonly used on the repairs of vertical surfaces, such as
façades, to ensure that the façade repair does not dislodge
from the structure. Noncorrosive anchors, such as stainless
steel, are commonly specified for overhead repairs that might
cause injury in the event of failure of the repair façades and for
other corrosive conditions where inadequate cover is provided.
There are two general categories of anchoring systems:
post-installed and cast-in-place (ACI 355.1R).
2.5.1 Post-installed anchors—Post-installed anchor
systems are installed into a predrilled hole. They can be
divided into two general types: bonded and expansion
anchors.
Bonded anchors include both grouted (headed bolts or a
variety of other shapes installed with a cementitious grout)
and chemical anchors (usually threaded rods set with a twopart
chemical compound that is available as glass capsules,
plastic cartridges, tubes, or bulk). These anchor systems
develop their holding capacities by the bonding of the adhesive
to both the anchor and the concrete at the wall of the
drilled hole. The different chemical systems (epoxies, polyesters,
and vinyl esters) have different setting and performance
characteristics that should be understood by the
specifier and user. The engineer should exercise precautions
when specifying chemical anchors in either an underwater or
moist environment by verifying that the chemical adhesive
has been tested in a similar environment.
Expansion anchor systems, sometimes called mechanical
anchors, include torque-controlled, deformation-controlled,
and undercut anchors. These anchors develop their strength
from friction against the side of the drilled hole, from keying
into a localized crushed zone of the concrete resulting from
the setting operation, or from a combination of friction and
keying. These types of anchors develop bursting forces in the
concrete. Edge distances and the spacing between anchors
should be sufficient to prevent cracking. For the undercut
anchors, strength is derived from keying into an undercut at
the bottom of the drilled hole.
2.5.2 Cast-in-place anchors—Cast-in-place anchor
systems include embedded nonadjustable anchors of various
types and shapes, bolted connections, and adjustable anchors
that are set in place before placing concrete.
2.5.3 Anchor strength—Anchor strength and long-term
performance are dependent on a variety of factors that should
be evaluated for the anchor to be used. Some factors to be
considered include material strength (yield and ultimate), hole
diameter and drilling system used, embedment length,
annular gap between the anchor and the drilled hole for postinstalled
anchors, concrete strength and condition, type and
direction of load application (static, dynamic, tension, shear,
bending, or combined loading), spacing to other anchors and
edges, temperature (for chemical anchors), hole cleaning,
mode of failure of the anchor system (concrete breakage,
steel breakage, slip, or pullout), environmental conditions
for moisture and corrosion resistance, and creep.
Site testing for verification of performance is recommended
for critical applications. For chemical anchors, tests should
be performed to determine the long-term creep performance
at the highest expected service load and temperature. For all
anchor systems, installation instructions should be followed
to ensure proper anchor performance