CIDEPINT   05376
CENTRO DE INVESTIGACIONES EN TECNOLOGIA DE PINTURAS
Unidad Ejecutora - UE
congresos y reuniones científicas
Título:
Iron benzoate as environmentally-friendly pigment for paints technology: corrosion and fouling control
Autor/es:
G. BLUSTEIN; M. GARCÍA; M. PÉREZ; R. ROMAGNOLI; B. DEL AMO; M. STUPAK
Lugar:
Río de Janeiro, Brasil
Reunión:
Congreso; 13th International Congress on Marine Corrosion and Fouling; 2006
Resumen:
Traditionally, paints designed to protect metallic structures from corrosion
and fouling have been formulated with high toxic pigments. For instance, lead or
hexavalent chromium are used for anticorrosive paints and organotin compounds
for antifouling paints. Although these active pigments are highly effective
inhibitors, their use has been declining because they contaminate the environment
and, at the same time, represent a risk to human health. International regulations
concerning the protection of both the environment and industrial workers have
prompted paint manufacturers and end users to desire replacements for these
pigments.
The anticorrosive properties of soluble benzoate compounds were known
from many years ago and were studied employing sodium benzoate and benzoic
acid in different media, included those containing chloride. The employment of
soluble benzoate compounds in paint technology is limited by its high lixiviation
which takes to the loss of the protective properties of the paint. However, it is
possible to prepare insoluble iron benzoate to incorporate within paint film.
One of the goals of this investigation was to study the inhibitive properties
of iron benzoate-based paints in simulated marine corrosion condition (3% NaCl
solution). The pigment anticorrosive properties were investigated by way of
electrochemical techniques in pigment suspensions. In a second stage,
anticorrosive paints containing iron benzoate were formulated and their
performance was evaluated by accelerated (salt fog chamber) and electrochemical
(corrosion potential and ionic resistance) tests.
On the other hand, the effect of iron benzoate in the laboratory and in the
sea as probable antifouling agent was studied. Iron benzoate pigment in seawater
is hydrolyzed and consequently it produces a pH decrease. In this sense, the
effects of the pH on nauplii and the anion benzoate dissolved in seawater and
leached from an antifouling paint were evaluated. Although anion benzoate has an
intense narcotic effect on Balanus amphitrite nauplii, the results clearly
demonstrated that the combined action of this compound and a pH decrease
produce a pronounced antifouling activity, i.e. the synergic effect is greater than
separate effects. Field trials confirmed laboratory assays; paints containing iron
benzoate were effective in inhibiting organism settlement.
Results show that iron benzoate pigment has successful anticorrosive and
antifouling properties; the high levels of inhibitory activities suggest a potential
for novel active ingredient in paint formulations.
demonstrated that the combined action of this compound and a pH decrease
produce a pronounced antifouling activity, i.e. the synergic effect is greater than
separate effects. Field trials confirmed laboratory assays; paints containing iron
benzoate were effective in inhibiting organism settlement.
Results show that iron benzoate pigment has successful anticorrosive and
antifouling properties; the high levels of inhibitory activities suggest a potential
for novel active ingredient in paint formulations.
demonstrated that the combined action of this compound and a pH decrease
produce a pronounced antifouling activity, i.e. the synergic effect is greater than
separate effects. Field trials confirmed laboratory assays; paints containing iron
benzoate were effective in inhibiting organism settlement.
Results show that iron benzoate pigment has successful anticorrosive and
antifouling properties; the high levels of inhibitory activities suggest a potential
for novel active ingredient in paint formulations.
demonstrated that the combined action of this compound and a pH decrease
produce a pronounced antifouling activity, i.e. the synergic effect is greater than
separate effects. Field trials confirmed laboratory assays; paints containing iron
benzoate were effective in inhibiting organism settlement.
Results show that iron benzoate pigment has successful anticorrosive and
antifouling properties; the high levels of inhibitory activities suggest a potential
for novel active ingredient in paint formulations.
demonstrated that the combined action of this compound and a pH decrease
produce a pronounced antifouling activity, i.e. the synergic effect is greater than
separate effects. Field trials confirmed laboratory assays; paints containing iron
benzoate were effective in inhibiting organism settlement.
Results show that iron benzoate pigment has successful anticorrosive and
antifouling properties; the high levels of inhibitory activities suggest a potential
for novel active ingredient in paint formulations.
demonstrated that the combined action of this compound and a pH decrease
produce a pronounced antifouling activity, i.e. the synergic effect is greater than
separate effects. Field trials confirmed laboratory assays; paints containing iron
benzoate were effective in inhibiting organism settlement.
Results show that iron benzoate pigment has successful anticorrosive and
antifouling properties; the high levels of inhibitory activities suggest a potential
for novel active ingredient in paint formulations.
demonstrated that the combined action of this compound and a pH decrease
produce a pronounced antifouling activity, i.e. the synergic effect is greater than
separate effects. Field trials confirmed laboratory assays; paints containing iron
benzoate were effective in inhibiting organism settlement.
Results show that iron benzoate pigment has successful anticorrosive and
antifouling properties; the high levels of inhibitory activities suggest a potential
for novel active ingredient in paint formulations.
demonstrated that the combined action of this compound and a pH decrease
produce a pronounced antifouling activity, i.e. the synergic effect is greater than
separate effects. Field trials confirmed laboratory assays; paints containing iron
benzoate were effective in inhibiting organism settlement.
Results show that iron benzoate pigment has successful anticorrosive and
antifouling properties; the high levels of inhibitory activities suggest a potential
for novel active ingredient in paint formulations.
demonstrated that the combined action of this compound and a pH decrease
produce a pronounced antifouling activity, i.e. the synergic effect is greater than
separate effects. Field trials confirmed laboratory assays; paints containing iron
benzoate were effective in inhibiting organism settlement.
Results show that iron benzoate pigment has successful anticorrosive and
antifouling properties; the high levels of inhibitory activities suggest a potential
for novel active ingredient in paint formulations.
demonstrated that the combined action of this compound and a pH decrease
produce a pronounced antifouling activity, i.e. the synergic effect is greater than
separate effects. Field trials confirmed laboratory assays; paints containing iron
benzoate were effective in inhibiting organism settlement.
Results show that iron benzoate pigment has successful anticorrosive and
antifouling properties; the high levels of inhibitory activities suggest a potential
for novel active ingredient in paint formulations.
Balanus amphitrite nauplii, the results clearly
demonstrated that the combined action of this compound and a pH decrease
produce a pronounced antifouling activity, i.e. the synergic effect is greater than
separate effects. Field trials confirmed laboratory assays; paints containing iron
benzoate were effective in inhibiting organism settlement.
Results show that iron benzoate pigment has successful anticorrosive and
antifouling properties; the high levels of inhibitory activities suggest a potential
for novel active ingredient in paint formulations.