11/8/2022 0 Comments Modcomp backcalculation software![]() ![]() The final properties of the fibre-based materials depend on the net contribution of these two opposing effects. However, etching can also adversely affect the strength of fibres. It is well known that some surface treatments etching the fibre surface may enhance fibre/matrix interface adhesion and hence the stress transfer within composite due to increased contacting area and possibly strengthened bonding. In the aerospace industry metals are still incorporated into structures to impart mechanical integrity and electrical conductivity. Limited multi-functionality has often prevented composites from being more widely adopted. New approaches to improve functionality are important. This multinational cooperation is essential in order to reach the intended objectives. The project involves partners from EU members and administers the resources in terms of personnel, knowledge and equipment that are required for success. The partners realize that there is in some cases some overlap in their expertise, but see this as an added value to the project since this will facilitate cooperation. As no single organization or country has the capacity to successfully bring about the innovations and validations intended in MODCOMP on its own, a well-balanced consortium has been arranged, with partners that are complementary to each other and are willing to closely cooperate in creating a research environment as envisioned in MODCOMP’s ambitious aim.Īll partners in this consortium have been selected in view of their individual expertise and complementarities. The MODCOMP consortium is carefully composed in order to include all the expertise and access to facilities needed to reach the ambitious aim of the project. The benefits of fibre-based materials have clearly been shown in aerospace applications which require lightweight, high strength, high stiffness, and high fatigue-resistant materials. MODCOMP will develop the next generation of CF-based materials for structural and electronics applications. The limits of the current capability of such materials, however, have now been reached. Current generation CFs have extensively been used in a multitude of applications, taking advantage of their valuable properties to provide solutions in complex problems of materials science and technology. ![]() CF based materials have particular advantages due to their lightweight, good mechanical, electrical and thermal properties. These materials are a route to further exploiting advanced materials, using enabling technologies for additional functionalities, without compromising structural integrity. The aim of this project is to demonstrate the influence of different surface enhancing and modification techniques on carbon fibre (CF)-based materials for high value and high performance applications. Current technological demands are increasingly stretching the properties of traditional materials to expand their applications to more severe or extreme conditions, whilst simultaneously seeking cost-effective production processes and final products. ![]()
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