Completed Deliverables

  • D1.1 Report and product of Graphene/GO mixing with polymers and composites with multi-functionality

  • D1.2 Self-healing polymer matrices materials and specifications

  • D1.3 Polymer matrix modification for smart composites manufacturing

  • D1.4 Novel sizing approaches for smart composites manufacturing

  • D1.5 Intermediate CFRP product and hybrid approaches for smart composites

  • D1.6 Report on smart polymer based on thermoplastic matrix for healing

  • D1.7 Smart composite structures with functional properties

  • D1.8 Shape memory composite structures

  • D1.9 Report on self-sensing polymer based on chromophores substances

  • D1.10 Inks and electrolytes formulation for electrostatic/faradaic systems

  • D2.1 Report on the surface structure and properties of functionalised carbon-based reinforcements

  • D2.2 Report on 2D and 3D microstructures of designed smart composites

  • D2.3 Database of nano-and micro-mechanical and interface properties of designed smart composites

  • D2.4 Macro-mechanical and functional properties of smart products

  • D2.5 Methodology and testing systems for function-structure relations

  • D2.6 Report on electrical and self-sensing properties of smart composites

  • D2.7 Data-sheet with materials smart properties

  • D2.8 Report with material Specification

  • D2.9 Report on laboratory validation test (for domestic appliance application

  • D2.10 Validation of supercapacitance and EMS behaviour

  • D3.1 Technologies description and specification

  • D3.2 Automotive and racing sector Components 3D design

  • D3.3 Appliances components 3D design

  • D3.4 Design review report

  • D3.5 Small electrodes serial fabrication for electrostatic/faradaic systems

  • D3.6 First graphene based EMS structure

  • D3.7 Technical report on large-scale process analysis and impact on material properties

  • D3.8 Grabbing device made of SM composites

  • D3.9 Processing conditions for smart composites manufacturing

  • D3.10 FFF System optimisation for thermal managing materials

  • D3.12 Safety recommendation

  • D4.1 Report on reuse/recycling of thermoplastic smart polymers

  • D4.2 Scrap material re-use guidelines

  • D5.1 MODA classification of the planed models, according to the European Materials Modelling Council (EMMC) specifications

  • D5.2 Determination of interface properties from atomistic models

  • D5.3 Macroscopic properties interpolation functions (depending on the underlying layer structures and/or fibre grids)

  • D5.4 Architectures optimization through continuum models

  • D5.5 Analytical modelling of composites through RAMAN

  • D6.1 Technical report on simulation, design prototyping and testing

  • D6.3 Supercap samples of 30cmx30cm

  • D6.5 Report on parameters and design of Race and automotive prototypal component

  • D6.7 IoT Equipment (Software embedded & hardware)

  • D6.8 Machine Learning algorithm for Digital Equipment

  • D6.9 CLOUD Solution

  • D6.11 Report on ICT Standard and platform commercial up-take.

  • D6.12 Research on and evaluate the feasibility, pros and cons of each of the approaches considered for the composite filament from the point of view of the input materials processability

  • D6.13 Manufacturing and testing of the input filaments (polymer and/composite) for the 3D printer

  • D6.14 Relevant sets of 3D printed coupon samples and structural parts

  • D7.1 Risk assessment & Safe-by-Design Report

  • D7.2 Data Management Plan

  • D7.4 Cost evaluation report

  • D7.6 Market intelligence report

  • D8.3 Plan for the Exploitation and Dissemination of Results (PEDR)

  • 8.4 Training plan

  • D9.1 Initial Risk Management Plan (RMP) and Quality Assurance Plan (QAP)

  • D9.2 Yearly periodic progress reports and financial report

  • D9.3 Yearly periodic progress reports and financial report (M24)

  • D9.4 Yearly periodic progress reports and financial report (M36)

Achieved Milestones

  • Selection of materials approach to introduce smart functionalities into composites (NTUA)

  • Results of characterization for composites with smart properties

  • Selection of L and G concept in relation with the large dimension composite’s manufacturing

  • Selection of manufacturing conditions to achieve CFRP with smart behaviour

  • Optimization of material properties based on their architectures

  • Review on the optimal selection of constituents, the reinforcing fibre (carbon, glass, polymeric, so) and thermoplastic polymer, with respect to their compatibility, processability and performance parameters

  • Feasibility report on simulation, design prototyping and testing