3.2.4 Proprietary repair mortars—Pr

3.2.4 Proprietary repair mortars—Proprietary repair
mortars are prepackaged mortars that are a blend of portland
cement or specialty cement, admixtures, plasticizers, expansive agents, densifiers, accelerators, polymers, thixotropic agents, or
fine aggregate.
a) Advantages—The advantages of proprietary repair
materials are their convenience of use in the field and the
broad range of products with different physical and mechanical
properties to meet the different field conditions, such as
partial-depth repairs on vertical and overhead surfaces
without the need of forms. They can have faster times of
setting and shorter cure times.
b) Limitations—Proprietary repair mortars have different
mechanical properties than the concrete being repaired.
Because they may be cement-rich and extended with any one
or more modifiers subsequently, they can have a propensity
for high shrinkage compared with conventional concrete.
There are no standards addressing bond strength of these
mortars when applied to vertical or overhead applications.
c) Applications—Some proprietary mortars are recommended
for repairs as thin as 3 mm (1/8 in.). These applications
should be reviewed when installed in the path of vehicular
traffic or subjected to repetitive loadings. Testing under actual
field conditions is recommended to ensure the satisfactory
performance of the material and the installation.
d) Standards—The existing standard, ASTM C 928,
allows the inclusion of 1% calcium chloride by weight of
cement, without advising the specifier or the contractor. The
allowable shrinkage is high and may compromise the integrity
of the repair. This standard is not all-inclusive and compliance
to ASTM C 928 is no assurance of the desired quality.
3.2.5 Ferrocement—Ferrocement is a form of reinforced
concrete that differs from conventional reinforced or
prestressed concrete primarily by the manner in which the
reinforcing elements are dispersed and arranged (ACI
549R). Ferrocement is commonly constructed of hydraulic
cement mortar reinforced with closely spaced layers of
continuous and relatively small-diameter wire mesh. The
wire mesh may be made of steel, stainless steel, or other suitable
materials.
a) Advantages—Ferrocement has a high tensile strength- toweight
ratio, increased durability, and superior cracking
behavior in comparison to reinforced concrete.
b) Limitations—The use of ferrocement in a repair situation
is limited by the nature of the repair and the cost.
c) Applications—Because no formwork is required, ferrocement
is especially suitable for repair of structures with
curved surfaces, such as shells, and other free-form shapes.
d) Standards—There are currently no standards for ferrocement.
Additional information is available in ACI 549R
and 549.1R.
3.2.6 Fiber-reinforced concrete—Fiber-reinforced concrete
is conventional concrete with either metallic or polymeric
fibers added to achieve greater resistance to plastic shrinkage,
drying shrinkage, and service-related cracking. In most
applications, fiber reinforcement is not intended as primary
reinforcement. Fibers can be steel, glass, synthetic, or natural
(ACI 544.1R). Fiber-reinforced concrete has been used for
repairs using conventional and shotcrete placement methods.
Information on fiber-reinforced concrete or shotcrete can be
obtained from ACI 544.3R, ACI 544.4R, and ACI 506.1R