Abenojar Buendía, Juana
Tutor Sánchez, Joaquín
Ballesteros Iglesias, María Yolanda
del Real Romero, Juan Carlos
Martínez Casanova, Miguel Ángel
2017-04-05T03:07:28Z
2017-04-05T03:07:28Z
2017-07-01
1359-8368
10.1016j.compositesb.2017.03.047
Artículos en revistas
Different nano- and micro-fillers are added to modify the mechanical properties, wear resistance, thermal properties and the curing process of polymers. A very important application for epoxy resins is to be used as coating for anti-cavitation painting. Pyrogenic silica is already used in adhesives and paints, being its application related to rheology. The objective of this work is to study the effect of pyrogenic silica on epoxy resins, usually not present in their formulation. SiO2epoxy nanocomposites with two different loads of nano-silica, 3 and 5 wt were manufactured. In particular, the study focuses on the influence that the addition of nano-silica has on the mechanical, wear and cavitation erosion properties as well as on the thermal properties and the curing reaction. To accomplish these goals, nanocomposite samples in bulk and as coating were prepared. Mechanical properties (hardness, bending and tensile strength), wear resistance (in bulk and coating) and cavitation erosion were evaluated. The epoxy curing process and the influence of nano-SiO2 additions on the glass transition temperature (Tg) were studied by Differential Scanning Calorimetry (DSC).
In general, a plasticising effect was observed with nano-silica addition. Moreover, the resistance to erosion by cavitation, in terms of cumulative erosion and erosion rate, was higher for the nanocomposites than for clear resin.
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Revista: Composites Part B: Engineering, Periodo: 1, Volumen: online, Número: , Página inicial: 42, Página final: 53
Instituto de Investigación Tecnológica (IIT)
Erosion-wear, mechanical and thermal properties of silica filled epoxy nanocomposites
info:eu-repo/semantics/article
info:eu-repo/semantics/publishedVersion
info:eu-repo/semantics/restrictedAccess
Polymer-matrix composites; Thermosetting resin; Nano-silica; Wear; Thermal properties; Mechanical properties; Mechanical testing; Thermal analysis