The contractor hired
by DAER (Highway Department) to repair the stretch of RS-471 with
heavy traffic (BR-290/Pantano Grande until the bridge that crosses
the Camaquã River) worked out with these authorities a program
to improve the cost/benefit of the final surfacing on the stretch
from Pantano Grande to Encruzilhada do Sul.
Beginning studies with CAPFLEX-B from Petrobras in June/2003
and later on working with Ecoflex-B from Greca Asfaltos, Brasília
Guaíba over the years put together an entire specialized
structure for binding agent with an average viscosity of 1,700
centistokes, which is five times greater than the conventional
HMAC, working with average temperatures of 175ºC.
All these special characteristics that require a specific treatment,
both for the mixing process as well as for the road surfacing,
are demonstrating today not only their validity but also their
need. The variables to be considered along the stretch stated
above are as follows:
• 90% of the traffic is trucks. The internal transportation is of Lime
and Kaolin and of weighing, all semi-trucks, and is in the direction of the port
of Rio Grande.
• The quarries in the region are made up of a granite composition and all
of them of rocks at the limit of the abrasion, which makes it possible to obtain
a healthy asphalt mix.
• We could say, then, that this aggregate requires a coating film that
is as thick as possible.
• Since it is a region with great temperature changes within short time
intervals, the phenomenon of thermal susceptibility is critical in comparison
with the conventional asphalt concrete.
• And finally, it contains a stretch of 30 km along its extension of greater
traffic that is undergoing a repair project. A bet on an existing base layer
already classified as heterogeneous.
From all the aspects of differentiated characteristics, the
Asphalt-Rubber is the best solution for the Hot Mix Asphalt in
question.
With experimental stretches that have been in use for three
years, the supervision of the project that is being carried out
by STE – Technical Engineering Services has presented results
that are consistent with everything that is expected from a binding
agent:
• Because of its high viscosity, a greater thickness is possible on the
asphalt film that covers the aggregate.
• With a percentage of rubber of around 15% incorporated into the binding
agent, it allows to reach ratios up to 20% higher, which strengthens the asphalt
mixture from the point of view of its life cycle (oxidation) without suffering
from the problem of exudation.
• With a temperature of up to 180º, it provides a fantastic homogeneity
in terms of density on the road, which allows higher aggregate temperatures without
the risk of the infamous problem of "burnt mixture".
• Using 1000 unusable tires per kilometer of highway will certainly sidestep
part of an unrecoverable environmental liability.
• Part of the damages caused on our traditional surfaces with plastic deformation,
such as the common wheel-track rutting, will be minimized because of the lowering
of the thermal sensitiveness.
• Lastly, we worked with a binding agent that presents an average elastic
recuperation of 60% while the conventional type is no more than 10%.
All the paths that end up in a full utilization of a technology
that requires greater investment and complexity in the primary
production (asphalt production process) as well as greater training
and specialization in the execution of road surfacing are beyond
doubt arduous. Brasília Guaíba can say this because
it has been through these paths.
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