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Sectors: Industry, Innovation, Research, Services

Beneficiaries: Administrations States, Corporations, Local and Regional authorities, Research centres, SMEs

Regions: European Economic Area, European Union

Category: Call for Proposals

References:

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WE Funding – Horizon 2020 – Improve…
Funds for: Improving the environmental impact of the life cycle of aeronautical products
Main beneficiaries: Research centres, Local and Regional Authorities, Corporations, Administrations States, SMEs

Responsible: European Commission

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Amorce:

Funds for: Improving the environmental impact of the life cycle of aeronautical products
Main beneficiaries: Research centres, Local and Regional Authorities, Corporations, Administrations States, SMEs

Priorities and funded actions:

TOPICS
Open 
– JTI-CS2-2019-CFP10-AIR-01-41: Low speed handling quality and innovative engine integration of a new configuration aircraft;
– JTI-CS2-2019-CFP10-AIR-01-42: Development of a methodology (test, measurement, analysis) to characterize the behaviour of composite structures under dynamic loading;
– JTI-CS2-2019-CFP10-AIR-01-43: Verification of advanced simplified HLFC concept with variable porosity;
– JTI-CS2-2019-CFP10-AIR-01-44: Development of a methodology to optimize a wing composite panel with respect to tyre damage certification requirement;
– JTI-CS2-2019-CFP10-AIR-01-45: Coupon and element testing and manufacturing of test article for morphing technologies;
– JTI-CS2-2019-CFP10-AIR-02-77: Increasing the efficiency of pulsed jet actuators for flow separation control;
– JTI-CS2-2019-CFP10-AIR-02-78: Application of graphene based materials in aeronautical structures for de-icing, lightning strike protection, fire barrier and water absorption prevention purposes;
– JTI-CS2-2019-CFP10-AIR-02-79: Development of FEM fastener parametric/adaptable sizing tool including EMC impact, and manufacturing and EMC/LSP testing of demonstrators;
– JTI-CS2-2019-CFP10-AIR-02-80: Innovative flight data measurements to support the aerodynamic analysis of a compound helicopter demonstrator;
– JTI-CS2-2019-CFP10-AIR-02-81: Active Flow control on Tilt Rotor lifting surfaces;
– JTI-CS2-2019-CFP10-AIR-02-82: Innovative approaches for interior Noise Control for Next Generation Civil Tilt Rotor;
– JTI-CS2-2019-CFP10-AIR-02-83: Innovative weight measurement system for Tilt Rotor application;
– JTI-CS2-2019-CFP10-AIR-02-84: Modular platform development for Tilt Rotor final assembly;
– JTI-CS2-2019-CFP10-AIR-02-85: Development of a multifunctional system for complex aerostructures assembly, assisted by neural network softwares;
– JTI-CS2-2019-CFP10-AIR-02-86: Development of equipment for composite recycling process of uncured material;
– JTI-CS2-2019-CFP10-AIR-03-07: End of Life (EoL) for biomaterials;
– JTI-CS2-2019-CFP10-AIR-03-08: Disassembly and recycling of innovative structures made of different Al-Li alloys;
– JTI-CS2-2019-CFP10-AIR-03-09: Scrapping of carbon reinforced thermoplastic materials;
– JTI-CS2-2019-CFP10-FRC-01-28: Innovative kinematic analysis to incorporate multiple functions within a movable surface;
– JTI-CS2-2019-CFP10-FRC-01-29: Smart Active Inceptors System development for Tilt Rotor application;
– JTI-CS2-2019-CFP10-FRC-01-30: Multipurpose bench for Tiltrotor equipment functional test;
– JTI-CS2-2019-CFP10-REG-01-18: Theoretical and experimental evaluations of strain field modification induced by flaws in loaded composite structures;
– JTI-CS2-2019-CFP10-REG-01-19: Innovative Noise Generation System for testing of Regional Cabin Interior Noise reduction;
– JTI-CS2-2019-CFP10-REG-02-06: SHMS and Dynamic fields sensors development;
– JTI-CS2-2019-CFP10-THT-07: Ultra-High Aspect ratio wings;
– JTI-CS2-2019-CFP10-THT-08: Experimental and numerical noise assessment of distributed propulsion configurations;
– JTI-CS2-2019-CFP10-THT-09: Disruptive Active Flow Control for aircraft engine applications;
– JTI-CS2-2019-CFP10-THT-10: Non-intrusive, seedless measurement system: design, development, and testing;
– JTI-CS2-2019-CfP10-ENG-01-43: Low NOx / Low soot injection system design for spinning combustion technology;
– JTI-CS2-2019-CfP10-ENG-04-08: Revalorisation of Recycled Carbon Fibers and CFRP preparation through Eco design [ECO];
– JTI-CS2-2019-CfP10-LPA-01-72: Development of a distributed CFD platform for collaborative design;
– JTI-CS2-2019-CfP10-LPA-01-73: Innovative Thrust Reverser Actuator System (ITRAS);
– JTI-CS2-2019-CfP10-LPA-01-74: UHBR Engine Studies for Aircraft Operations and Economics;
– JTI-CS2-2019-CfP10-LPA-01-75: Advanced solutions for 2030+ UHBR Core Noise reduction;
– JTI-CS2-2019-CfP10-LPA-01-76: Supporting implementation of 2030+ UHBR low noise fan technology solutions through enhanced modeling capabilities;
– JTI-CS2-2019-CfP10-LPA-01-77: Advanced Pitch Control Mechanism TRL4 Demonstration;
– JTI-CS2-2019-CfP10-LPA-01-78: Innovative turbine cavity swirl control systems through Additive Manufacturing;
– JTI-CS2-2019-CfP10-LPA-01-79: Development of multidisciplinary design tools for rapid concept design for aero engine components;
– JTI-CS2-2019-CfP10-LPA-01-80: Rear fuselage and empennage shape optimization including anti-icing technologies;
– JTI-CS2-2019-CfP10-LPA-01-81: Fiber reinforced thermoplastics manufacturing for stiffened, complex, double curved structures;
– JTI-CS2-2019-CfP10-LPA-01-82: Development of Thermoplastic press forming Tool for Advanced Rear End Closing Frame Prototype and Tooling 4.0 for Assembly and transportation of the Advanced Rear End Prototype;
– JTI-CS2-2019-CfP10-LPA-01-83: Development and simulation of a forming process for LE HLFC wing outer skins;
– JTI-CS2-2019-CfP10-LPA-01-84: Development of a manufacturing process and a manufacturing unit for production of a laser treated titanium panel with a 3D printed substructure;
– JTI-CS2-2019-CfP10-LPA-01-85: Design and manufacturing of multi-functional Ice Protection System power feed/monitoring lines and Shielding/High-lift electrical actuation system for a HLFC Wing demonstrator;
– JTI-CS2-2019-CfP10-LPA-01-86: Develop and test Power Efficient Actuation Concepts for Separation Flow Control at large aerodynamic areas requiring very low actuation energy;
– JTI-CS2-2019-CfP10-LPA-01-87: Loop Heat Pipe development for severe environment;
– JTI-CS2-2019-CfP10-LPA-02-30: Development of innovative welding systems for structural joints of Thermoplastic matrix based Composites;
– JTI-CS2-2019-CfP10-LPA-02-31: Development of short fibre reinforced thermoplastic airframe clips and brackets using factory waste;
– JTI-CS2-2019-CfP10-LPA-02-32: Innovative miniaturized sensing device for large wave length spectrum reception capability as a tool for quality control and aircraft maintenance;
– JTI-CS2-2019-CfP10-SYS-01-15: Enhanced digital georeferenced data models for cockpit use;
– JTI-CS2-2019-CfP10-SYS-01-16: Innovative processing for flight practices improvement;
– JTI-CS2-2019-CfP10-SYS-01-17: New Efficient production methods for 94 GHz (W-band) waveguide antennas;
– JTI-CS2-2019-CfP10-SYS-01-18: Low-profile/drag electronically steerable antennas for In-Flight Connectivity;
– JTI-CS2-2019-CfP10-SYS-01-19: VOC filtration device for Inerting System;
– JTI-CS2-2019-CfP10-SYS-01-20: Innovative high flow rate constant pressure valve for inert gas discharge from pressurized vessels;
– JTI-CS2-2019-CfP10-SYS-01-21: Grey Water Container with Reduced Biofilm Growth;
– JTI-CS2-2019-CfP10-SYS-02-58: Automatic Haptic System Test Bench for Active Inceptors;
– JTI-CS2-2019-CfP10-SYS-02-59: Innovative DC/DC converter for HVDC power sources hybridization;
– JTI-CS2-2019-CfP10-SYS-02-60: Toward a Digital Twin ECS and thermal management architecture models: Improvement of MODELICA libraries and usage of Deep Learning technics;
– JTI-CS2-2019-CfP10-SYS-02-61: Vapor Cycle System – Heat Exchanger performance 3D modeling with different new low GWP refrigerants;
– JTI-CS2-2019-CfP10-SYS-03-23: Electro-Mechanical Landing Gear system integration for Small Aircraft [SAT];
– JTI-CS2-2019-CfP10-SYS-03-24: Power Semiconductor Device module using Silicon Carbide devices for a relatively high-frequency, circa 100kW aircraft motor drive applications