The need to improve non-intrinsic properties of composite materials is a fact that leads to studies such as the one carried out in this project, where the possibility of integrating new materials development into common materials is analyzed to provide them with an improved properties: mechanical or electric.
The main objective of the project is to analyze the possibility of introducing the new materials into the current manufacturing processes, improving the properties of the raw material (dry carbon fiber fabric infused with monocomponent epoxy resin), under aeronautical requirements.
Two material developments are made with carbon nanotubes in two different formats: buckypapers and thermoplastic doped veils.
The implementation of each materials has been studied in current infusion processes, more concretely manufacturing processes by RTM (Resin Transfer Molding). The studied possibilities are: buckypapers incorporated in dry preforms, for their subsequent infusion and doped veils embedded in dry preforms, for their subsequent infusion.
The obtained results at this moment (2nd year of the project) are satisfactory, although it´s necessary to optimize the materials to improve the automation of the manufacturing process and achieve a greater improvement of properties.
PLATFORM appear for the need to improve non-intrinsic properties of composite materials, principally its mechanical and electrical properties. The main objective of the project is to analyze the possibility of introducing three new materials in development into the current manufacturing processes, improving the properties of the raw material, more concrectly prepreg unidirectional carbon fibre with epoxy resin. Several material developments are made with carbon nanotubes in three different formats: buckypapers, thermoplastic doped veils and CTN treated prepreg. The implementation of each materials has been studied in current infusion processes, more concretely manufacturing with prepregs and cure in an autoclave. The studied possibilities are: buckypapers incorporated and doped veils embedded in prepreg laminates or full manufacturing with treated prepreg. The obtained results at the 2nd year of the project are satisfactory, but it´s necessary to optimize the materials to automate the manufacturing and improve the final properties.
Abstract
PLATFORM appear for the need to improve non-intrinsic properties of composite materials, principally its mechanical and electrical properties. The main objective of the project is to analyze the possibility of introducing three new materials in development into the current manufacturing [...]
In the last decade, superhydrophobicity (SH) phenomenon has aroused a great interest. This fact has been motivated by large and important functionalities that can be achieved by these SH surfaces: self-cleaning solutions, water repellancy, anticorrosive, anti-stain, anti-icing, antifouling, among others. SH is defined by the low surface energy of the material as well as the morphology of the own surface. However, due to the fact that hydrophobicity is a superficial property, its main disadvantage is its limited wear resistance, which causes a low durability and a limited comercial use. This fact, together with the complexity and low effectiveness, from the economic point of view compared with the existing coatings fabrication techniques, makes necessary the research of new alternatives for the demanding market, being a technological challenge to find them. Moreover, organic coatings are widely used in industry in a number of surfaces due to the ease and low cost of application methods. Concretely, nanocomposites fabrication from organic polymers using nanoparticles as additives, has been creating high expectatives in the coatings industry sector. In this work, new organic coatings based on the integration of surface modified nanoparticles with hydrophobic moieties have been developed, in order to achieve hidrophobicity in organic polymeric matrices (paints). Likewise, different nanoparticles have been used in order to achieve synergistic effects that could provide a determined superficial rugosity and then, reaching simultaneously transparent, hydrophobic and abrasion wear resistant coatings.
Abstract
In the last decade, superhydrophobicity (SH) phenomenon has aroused a great interest. This fact has been motivated by large and important functionalities that can be achieved by these SH surfaces: self-cleaning solutions, water repellancy, anticorrosive, anti-stain, anti-icing, [...]