CIDEPINT 05376
CENTRO DE INVESTIGACIONES EN TECNOLOGIA DE PINTURAS
Unidad Ejecutora - UE
artículos
Título:
Epoxysilane as adhesion promoter in duplex system
Autor/es:
C. DEYA
Revista:
JOURNAL OF ADHESION SCIENCE AND TECHNOLOGY
Editorial:
BRILL ACADEMIC PUBLISHERS
Referencias:
Lugar: Leiden; Año: 2012 p. 1 - 15
ISSN:
0169-4243
Resumen:
Coatings are one of the most used protection methods for metals. Metallic coatings, such
as zinc and its alloys, are used to protect steel in mild corrosive environments. In aggressive
environments, on the other hand, organic coatings must be employed in the so-called
duplex systems. However, the galvanized steel/organic coating adhesion is a problem and
many attempts had been done to solve it with the incorporation of a chromate-based or
phosphate-based interlayer. Nowadays, the use of these compounds is questioned due to
their environmental impact and new adhesion promoters, like silanes, are being investigated.
The aim of this paper was to study the adhesion and the anticorrosive behavior of a
duplex system with a layer of glycidoxypropyltrimethoxysilane (ã-GPS) between the zinc
and the coating. Polarization tests and corrosion potential measurements were done on
the ã-GPS/galvanized steel to select the better anticorrosive pretreatment conditions for the
application of an organic traditional paint. Dried and wet adhesion of the coating to the
pretreated substrate was studied by the standard tape test. Salt spray test and electrochemical
noise technique were employed to study the corrosion behavior of the duplex systems.
Results showed that the films of ã-GPS formed on galvanized steel diminished the corrosion
current of the metal, but they do not protect the substrate by a barrier effect. The
incorporation of the pretreatment in the duplex system increased the adhesion of the paint,
especially when the pretreated substrate was cured 1 h at 200 °C.
current of the metal, but they do not protect the substrate by a barrier effect. The
incorporation of the pretreatment in the duplex system increased the adhesion of the paint,
especially when the pretreated substrate was cured 1 h at 200 °C.
application of an organic traditional paint. Dried and wet adhesion of the coating to the
pretreated substrate was studied by the standard tape test. Salt spray test and electrochemical
noise technique were employed to study the corrosion behavior of the duplex systems.
Results showed that the films of ã-GPS formed on galvanized steel diminished the corrosion
current of the metal, but they do not protect the substrate by a barrier effect. The
incorporation of the pretreatment in the duplex system increased the adhesion of the paint,
especially when the pretreated substrate was cured 1 h at 200 °C.
current of the metal, but they do not protect the substrate by a barrier effect. The
incorporation of the pretreatment in the duplex system increased the adhesion of the paint,
especially when the pretreated substrate was cured 1 h at 200 °C.
and the coating. Polarization tests and corrosion potential measurements were done on
the ã-GPS/galvanized steel to select the better anticorrosive pretreatment conditions for the
application of an organic traditional paint. Dried and wet adhesion of the coating to the
pretreated substrate was studied by the standard tape test. Salt spray test and electrochemical
noise technique were employed to study the corrosion behavior of the duplex systems.
Results showed that the films of ã-GPS formed on galvanized steel diminished the corrosion
current of the metal, but they do not protect the substrate by a barrier effect. The
incorporation of the pretreatment in the duplex system increased the adhesion of the paint,
especially when the pretreated substrate was cured 1 h at 200 °C.
current of the metal, but they do not protect the substrate by a barrier effect. The
incorporation of the pretreatment in the duplex system increased the adhesion of the paint,
especially when the pretreated substrate was cured 1 h at 200 °C.
application of an organic traditional paint. Dried and wet adhesion of the coating to the
pretreated substrate was studied by the standard tape test. Salt spray test and electrochemical
noise technique were employed to study the corrosion behavior of the duplex systems.
Results showed that the films of ã-GPS formed on galvanized steel diminished the corrosion
current of the metal, but they do not protect the substrate by a barrier effect. The
incorporation of the pretreatment in the duplex system increased the adhesion of the paint,
especially when the pretreated substrate was cured 1 h at 200 °C.
current of the metal, but they do not protect the substrate by a barrier effect. The
incorporation of the pretreatment in the duplex system increased the adhesion of the paint,
especially when the pretreated substrate was cured 1 h at 200 °C.
ã-GPS) between the zinc
and the coating. Polarization tests and corrosion potential measurements were done on
the ã-GPS/galvanized steel to select the better anticorrosive pretreatment conditions for the
application of an organic traditional paint. Dried and wet adhesion of the coating to the
pretreated substrate was studied by the standard tape test. Salt spray test and electrochemical
noise technique were employed to study the corrosion behavior of the duplex systems.
Results showed that the films of ã-GPS formed on galvanized steel diminished the corrosion
current of the metal, but they do not protect the substrate by a barrier effect. The
incorporation of the pretreatment in the duplex system increased the adhesion of the paint,
especially when the pretreated substrate was cured 1 h at 200 °C.
current of the metal, but they do not protect the substrate by a barrier effect. The
incorporation of the pretreatment in the duplex system increased the adhesion of the paint,
especially when the pretreated substrate was cured 1 h at 200 °C.
application of an organic traditional paint. Dried and wet adhesion of the coating to the
pretreated substrate was studied by the standard tape test. Salt spray test and electrochemical
noise technique were employed to study the corrosion behavior of the duplex systems.
Results showed that the films of ã-GPS formed on galvanized steel diminished the corrosion
current of the metal, but they do not protect the substrate by a barrier effect. The
incorporation of the pretreatment in the duplex system increased the adhesion of the paint,
especially when the pretreated substrate was cured 1 h at 200 °C.
current of the metal, but they do not protect the substrate by a barrier effect. The
incorporation of the pretreatment in the duplex system increased the adhesion of the paint,
especially when the pretreated substrate was cured 1 h at 200 °C.
ã-GPS/galvanized steel to select the better anticorrosive pretreatment conditions for the
application of an organic traditional paint. Dried and wet adhesion of the coating to the
pretreated substrate was studied by the standard tape test. Salt spray test and electrochemical
noise technique were employed to study the corrosion behavior of the duplex systems.
Results showed that the films of ã-GPS formed on galvanized steel diminished the corrosion
current of the metal, but they do not protect the substrate by a barrier effect. The
incorporation of the pretreatment in the duplex system increased the adhesion of the paint,
especially when the pretreated substrate was cured 1 h at 200 °C.
current of the metal, but they do not protect the substrate by a barrier effect. The
incorporation of the pretreatment in the duplex system increased the adhesion of the paint,
especially when the pretreated substrate was cured 1 h at 200 °C.
films of ã-GPS formed on galvanized steel diminished the corrosion
current of the metal, but they do not protect the substrate by a barrier effect. The
incorporation of the pretreatment in the duplex system increased the adhesion of the paint,
especially when the pretreated substrate was cured 1 h at 200 °C.
