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TRIMIS

Development and validation of a powder HIP route for high temperature Astroloy to manufacture Ultrafan® IP Turbine Casings

PROJECTS
Funding
European
European Union
Duration
-
Status
Ongoing
Geo-spatial type
Other
Total project cost
€1 557 700
EU Contribution
€1 499 781
Project Acronym
HUC
STRIA Roadmaps
Vehicle design and manufacturing (VDM)
Transport mode
Airborne icon
Transport policies
Other specified
Transport sectors
Passenger transport,
Freight transport

Overview

Call for proposal
H2020-CS2-CFP07-2017-02
Link to CORDIS
Background & Policy context

This is a response to the Call for Proposal under Clean Sky 2 and JU to manufacture IP Turbine casings for the new generation Ultrafan® engine from Astroloy using Net Shape Hot Isostatic Pressing of powder (NSHIP).

Astroloy with high γ’ volume fraction have the required high temperature properties but it is unforgeable. Thus, Powder-HIP is the most promising process route for this alloy though this technique presents several challenges such as presence of PPBs in the HIPped microstructure, the high cost of powder and HIP-tooling. HUC, making usage of the background technology will face and overcome these challenges and will take a step further tackling technology gaps alongside the material capability, basic mechanical behaviour and impact in the presence of the exposure with the ultimate goal for this technology to be fully tested in the relevant UltraFan® Demonstrator engine environment.

Objectives

The main objective of HUC is to improve the buy to fly ratio from the typically achieved 9 through the conventional cast and wrought route to less than 3 through NNSHIP being the material developed able to withstand engine relevant conditions with and without exposure guaranteeing its ability to contain. The work plan includes the following main activities:

  1. Development and Optimisation of a powder HIP processing for Astroloy
  2. Characterisation of mechanical properties to generate a database which supports the component design
  3. Development of experiments and numerical simulations to assess the material´s behaviour under dynamic and ballistic conditions
  4. Characterisation and understanding of mechanical properties with exposure at high temperatures
  5. Development of low-cost tooling for HIPping high temperature superalloy casings
  6. Development and validation of process modelling capabilities
  7. Manufacturing of canning/tooling to guarantee the compliance of the finish product with the requirements
  8. Project progress Management, Dissemination, Communication and Exploitation

Funding

Parent Programmes
Institution Type
Public institution
Institution Name
European Commission
Type of funding
Public (EU)
Specific funding programme
H2020-EU.3.4.5.5.
Other Programme
JTI-CS2-2017-CfP07-ENG-03-22 Development and validation of a Powder HIP route for the manufacture of the UltraFan® Demonstrator IP Turbine casing from high temperature material allowing product enhancements at significantly lower costs and environmental

Partners

Lead Organisation
Organisation
Asociacion Centro Tecnologico Ceit
Address
PASEO MANUEL DE LARDIZABAL 15, 20018 SAN SEBASTIAN, Spain
Organisation website
EU Contribution
€659 836
Partner Organisations
Organisation
Fundacion Imdea Materiales
Address
Calle Eric Kandel 2 Parque Cientifico Y Tecnologico Tecnogetafe, 28906 Getafe, Spain
EU Contribution
€224 801
Organisation
Aubert & Duval Sas
Address
10 BOULEVARD DE GRENELLE, 75015 PARIS CEDEX 15, France
Organisation website
EU Contribution
€135 144
Organisation
Consorzio Interuniversitario Nazionale Per La Scienza E Tecnologia Dei Materiali
Address
Via Giusti 9, 50121 FIRENZE, Italy
Organisation website
EU Contribution
€80 000
Organisation
Universidad Del Pais Vasco/ Euskal Herriko Unibertsitatea
Address
Barrio Sarriena S N, 48940 Leioa, Spain
EU Contribution
€400 000

Technologies

Technology Theme
Additive manufacturing
Technology
Near Net Shape Hot Isostatic Pressing (NNSHIPping)

Process for the production of metallic components by applying pressure and heat to metallic powder in the mould, to produce a component with uniform material properties that is close to the designed final shape and which needs minimal final machining or further processing

Development phase
Research/Invention

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