CEIT-IK4

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CEIT-IK4

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CEIT-IK4

Stand: 5 / C-58

PS MANUEL LARDIZABAL 15

20018 DONOSTIA, GIPUZKOA (Spain)

Tel.: 943212800

Fax: 943213076

Web: www.ceit.es

CEIT-IK4

Description


Visiting sector addressed by the exhibitor

  • Aeronáutica
  • Energía
  • Automoción

Product categories

  • INDUSTRY APPLICATIONS FOR ADDITIVE MANUFACTURING / FOR AEROSPACE TECHNOLOGY
  • INDUSTRY APPLICATIONS FOR ADDITIVE MANUFACTURING / FOR AUTOMOTIVE TECHNOLOGY
  • INDUSTRY APPLICATIONS FOR ADDITIVE MANUFACTURING / FOR LIFESTYLE PRODUCTS
  • INDUSTRY APPLICATIONS FOR ADDITIVE MANUFACTURING / FOR MECHANICAL ENGINEERING
  • INDUSTRY APPLICATIONS FOR ADDITIVE MANUFACTURING / FOR MOULD MAKING AND PROTOTYPING
  • INDUSTRY APPLICATIONS FOR ADDITIVE MANUFACTURING / FOR MEDICAL TECHNOLOGY
  • INDUSTRY APPLICATIONS FOR ADDITIVE MANUFACTURING / FOR OTHER INDUSTRIES
  • SOFTWARE FOR ADDITIVE MANUFACTURING / CAD/CAM
  • SOFTWARE FOR ADDITIVE MANUFACTURING / SIMULATION SOFTWARE
  • RAW MATERIALS FOR ADDITIVE MANUFACTURING / POWDER BASED
  • RESEARCH & DEVELOPMENT ON ADDITIVE MANUFACTURING / RESEARCH & DEVELOPMENT ON ADDITIVE MANUFACTURING

Click on the product name to see its details and description.

Click on the product name to see its details and description.

Nesmonic

Nesmonic

This response to the call for proposals under the Clean Sky Joint Undertaking to manufacture static engine components from IN718 using Net Shape Hot Isostatic Pressing of powder (NSHIP) involves 3 partners with complementary expertise in the areas required to undertake the work including powder characterisation; NSHIP and modelling; low cost tooling, as well as microstructural and property assessment.

The NSHIP of powder has the potential to revolutionise the production of complex high performance aerospace parts enabling significant improved buy-to-fly ratios which give cost savings as well as environmental benefits. To exploit this technology, significant challenges must be addressed including; difficulty in HIPping nickel super alloy powder, high cost of sacrificial tooling, diffused surface layer on components due to interaction with the tool material and finally the lack of credible performance information for IN718 parts produced using the NSHIP process. The partners will use a rigorous and yet innovative approach to address these challenges in this 2 year collaborative project.

Trials will be performed to determine the best powder and HIPping conditions to use to produce parts with the desired microstructure and properties. Novel low cost tooling methods will be developed and surface engineering techniques, to eliminate tool/component interaction, will be explored. A computation model of IN718 powder consolidation will be used to calculate the correct tool geometry to enable “right-first-time” net shape parts to be produced. Finally, demonstration components and test sample will be produced using the most appropriate powder and manufacturing parameters. Test samples will be subjected to NADCAP-approved mechanical property testing. The quality of the demonstration components will be assessed by the partners and subsequently supplied to ITP for long term evaluation.


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