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Sectors: Industry, Innovation, New technologies, Research, Transport

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

Regions: European Union, Worldwide

Category: Call for proposals

References:

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Responsible: European commission

Useful:

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Contact:

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Advice:

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Amorce:

To Encourage private investments in aeronautics research in general, and in clean Air Transport technologies in particular.

Priorities and funded actions:

TOPICS
– JTI-CS2-2017-CFP06-AIR-01-25: Prediction of aerodynamic loads at high Reynolds Number;
– JTI-CS2-2017-CFP06-AIR-01-26: Development of innovative and optimized stiffeners run-out for overall panel weight saving of composite wing;
– JTI-CS2-2017-CFP06-AIR-01-27: Innovative solutions for metallic ribs or fittings introduced in a composite box to optimally deal with thermo-mechanical effects;
– JTI-CS2-2017-CFP06-AIR-01-28: Optimized cockpit windshields for large diameter business aircrafts;
– JTI-CS2-2017-CFP06-AIR-01-29: Optimisation of Friction Stir Welding (FSW) and Laser Beam Welding (LBW) for assembly of structural aircraft parts;
– JTI-CS2-2017-CFP06-AIR-02-39: Integration of innovative ice protection systems into structure and their validation;
– JTI-CS2-2017-CFP06-AIR-02-40: Enhanced Low Cost Complex Composite Structures;
– JTI-CS2-2017-CFP06-AIR-02-41: Integrated electronics for actuator data and power management for Morphing Leading Edge activities;
– JTI-CS2-2017-CFP06-AIR-02-42: Lay-up tools for net-shape AFP-manufacturing of geometrically complex helicopter sideshell sandwich-panels;
– JTI-CS2-2017-CFP06-AIR-02-43: Low cost optical wave guides for damage detection including analysis and aircraft data transfer related to aircraft functional needs with self-testing connection;
– JTI-CS2-2017-CFP06-AIR-02-44: Adjustable high loaded rod;
– JTI-CS2-2017-CFP06-AIR-02-45: Development and deployment of PLM Tools for A/C Ground Functional testing with Eco-design criteria;
– JTI-CS2-2017-CFP06-AIR-02-46: Auto testing technologies and more automated factories for Aircraft validation test process;
– JTI-CS2-2017-CFP06-AIR-02-47: Part specific process optimization in SLM;
– JTI-CS2-2017-CFP06-AIR-02-48: Development and validation of a portable, automated and jigless system for drilling and assembly of fuselage joints;
– JTI-CS2-2017-CFP06-AIR-02-49: Development and validation of a self-adaptive system for automated assembly of major composite aerostructures;
– JTI-CS2-2017-CFP06-AIR-02-50: Prototype Tooling for subcomponents manufacturing for fuselage;
– JTI-CS2-2017-CFP06-ENG-01-15: Bearing chamber in hot environment;
– JTI-CS2-2017-CFP06-ENG-01-16: Torque measurement in turbofan;
– JTI-CS2-2017-CFP06-ENG-01-17: Advanced turbine system performance improvement through dual-spool rig tests;
– JTI-CS2-2017-CFP06-ENG-01-18: Development of innovative methods and tooling for machining of slender shafts;
– JTI-CS2-2017-CFP06-ENG-01-19: Thermoplastic Thrust reverser cascade;
– JTI-CS2-2017-CFP06-ENG-01-20: Long Fiber Thrust reverser cascade;
– JTI-CS2-2017-CFP06-ENG-01-21: Aerothermal characterization in the engine compartment;
– JTI-CS2-2017-CFP06-ENG-01-22: Advanced Instrumented Engine cradle of the Turboprop demonstrator;
– JTI-CS2-2017-CFP06-ENG-03-15: IP Turbine Rear Stages Aero/Noise Rigs;
– JTI-CS2-2017-CFP06-ENG-03-16: Development of non-intrusive engine emissions instrumentation capability;
– JTI-CS2-2017-CFP06-ENG-03-17: VHBR Engine – Journal Bearing Technology;
– JTI-CS2-2017-CFP06-ENG-03-18: Development of capability to understand & predict sub-idle & idle behaviour of geared VHBR engines;
– JTI-CS2-2017-CFP06-ENG-03-19: Intermediate Compressor Case Duct Aerodynamics;
– JTI-CS2-2017-CFP06-ENG-04-07: Advanced investigation of ultra compact RQL reverse flow combustor;
– JTI-CS2-2017-CFP06-FRC-01-13: Low-speed Air Data Sensor for Tilt-rotor Control;
– JTI-CS2-2017-CFP06-FRC-01-14: Contactless measurement system for real time monitoring of proprotor flapping angle;
– JTI-CS2-2017-CFP06-FRC-01-15: Interactional aerodynamic assessment of advanced Tilt Rotor configuration;
– JTI-CS2-2017-CFP06-FRC-02-20: Lateral rotor noise prediction dedicated to low noise footprint optimisation of a compound helicopter;
– JTI-CS2-2017-CFP06-FRC-02-21: Emergency Exits and Cabin Footstep for the Fast Rotorcraft;
– JTI-CS2-2017-CFP06-FRC-02-22: Lateral rotor declutching mechanism for a fast compound rotorcraft;
– JTI-CS2-2017-CFP06-FRC-02-23: Enhanced gear strength through cavitation peening technologies;
– JTI-CS2-2017-CFP06-FRC-02-24: Hybrid bearings technologies;
– JTI-CS2-2017-CFP06-FRC-02-25: Fuel System Detail Development, Testing and Manufacturing;
– JTI-CS2-2017-CFP06-FRC-02-26: Compound Rotorcraft Assembly Tooling;
– JTI-CS2-2017-CFP06-FRC-02-27: Rotor’s Flight Test Instrumentation on demonstrator Fast Rotorcraft Project;
– JTI-CS2-2017-CFP06-LPA-01-29: Modelling of installed jet noise for UHBR engine integration with forward flight effects;
– JTI-CS2-2017-CFP06-LPA-01-30: Test Cell Control System for NPE Demonstrator;
– JTI-CS2-2017-CFP06-LPA-01-31: Representative HLFC Leading Edge structure – Torsion and Bending Stiffness Test;
– JTI-CS2-2017-CFP06-LPA-01-32: Insect contamination investigations and mitigation;
– JTI-CS2-2017-CFP06-LPA-01-33: Multi-physics modelling of elementary physical phenomena applied to an innovative high temperature engine valve;
– JTI-CS2-2017-CFP06-LPA-01-34: 3D printing and harsh environment testing of flow control actuators at aircraft scale;
– JTI-CS2-2017-CFP06-LPA-01-35: Innovative compact heat exchangers modelisation & characterisation;
– JTI-CS2-2017-CFP06-LPA-02-16: SmartContainer;
– JTI-CS2-2017-CFP06-LPA-02-17: Glass fiber based temperature/air humidity and Agent detection sensors & measurement systems;
– JTI-CS2-2017-CFP06-LPA-02-18: Multi-Physics methodology for phase change due to rapidly depressurised two-phase flows;
– JTI-CS2-2017-CFP06-LPA-02-19: High performance Body Landing Gear fittings;
– JTI-CS2-2017-CFP06-LPA-02-20: Manufacturing oriented solution keel beam;
– JTI-CS2-2017-CFP06-LPA-02-21: Development of systems for automated testing in the aircraft interior;
– JTI-CS2-2017-CFP06-LPA-03-09: Image based landing solutions for Disruptive Cockpit concept;
– JTI-CS2-2017-CFP06-LPA-03-10: Avionics Technologies Management solution for Pilot Workload Reduction;
– JTI-CS2-2017-CFP06-LPA-03-11: Multimodal HMI development tools;
– JTI-CS2-2017-CFP06-LPA-03-12: High density Electrical connectors;
– JTI-CS2-2017-CFP06-REG-01-09: Innovative Low Power De-Icing System;
– JTI-CS2-2017-CFP06-REG-01-10: E2-EM Supervisor and Control Algorithms;
– JTI-CS2-2017-CFP06-SYS-01-04: Manufacturing process for ultimate performance inertial MEMS Accelerometer;
– JTI-CS2-2017-CFP06-SYS-01-05: Solutions for voice interaction towards natural crew assistant;
– JTI-CS2-2017-CFP06-SYS-01-06: Affordable Electro-Optical Sensor Cluster/Assembly Unit(LRU) for Vision & Awareness enabling Enhanced Vision, Sense & Avoid, and Obstacle Detection Systems for Aeroplane and Helicopter All-weather Operations and enhanced safety;
– JTI-CS2-2017-CFP06-SYS-02-29: High density energy storage module for an electric taxi;
– JTI-CS2-2017-CFP06-SYS-02-30: Innovative pump architecture for cooling electrical machine;
– JTI-CS2-2017-CFP06-SYS-02-31: Power module;
– JTI-CS2-2017-CFP06-SYS-02-32: Development of functionalizable materials;
– JTI-CS2-2017-CFP06-SYS-02-33: Development of autonomous, wireless, smart and low cost current sensor for monitoring of electrical lines;
– JTI-CS2-2017-CFP06-SYS-02-34: Optical hot air leak detection system proof-of-concept development;
– JTI-CS2-2017-CFP06-SYS-03-09: Computing Node for Safety Critical Applications;
– JTI-CS2-2017-CFP06-SYS-03-10: Electrocoating process for Cr6-free surface treatment of aluminium parts;
– JTI-CS2-2017-CFP06-SYS-03-11: Screening and development of optimized materials (wires, potting resins and impregnating varnishes) for high temperature coils;
– JTI-CS2-2017-CFP06-SYS-03-12: Assessment of Partial Discharge and breakdown behaviour of electric insulation materials for very high voltage gradients.

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