Project: Research

Project Details


Flintstone2020 aims to provide a perspective for the replacement of two important CRMs – tungsten (W) and cobalt (Co) – which are the main constituents for two important classes of hard materials (cemented carbides/WC-Co, and PCD/diamond-Co), by developing innovative alternative solutions for tooling operating under extreme conditions. Fundamental knowledge on mechanical properties and wear of different tools, gained in machining tests and dedicated experiments from WP1 is passed onto the respective WPs. WP2 will experiment on small samples with 3-9 mm Ø for testing the fundamental behavior of new B-X phases and particularly as a feedback for binder matrix improvement.

In WP3 samples (12 mm Ø) will be investigated from individual HPHT runs for characterization and testing to guide high pressure sintering process optimization. The HPHT process and the samples produced are then upscaled to the industrial mass production level in WP4. In WP5, demonstrator cutting tools from full size HPHT synthesis test runs will be prepared via laser cutting and consecutive macro- and microshaping of tool geometry within WP5. In WP6 aspects of environmental benefits in the total life cycle of the superhard materials will be investigated, including health and safety aspects. WP7 will focus on exploitation and dissemination.
Effective start/end date2017/09/012019/12/31

Collaborative partners

  • Lund University (lead)
  • Bifa Umweltinstitut GmbH
  • The French National Centre for Scientific Research (CNRS)
  • V. Bakul Institute for Superhard Materials
  • Boukje.com Consulting BV
  • Element Six (UK) Ltd.
  • Sandvik Mining and Construction Tools AB
  • Seco Tools AB
  • Freiberg University of Mining and Technology


  • European Commission - Horizon 2020

UKÄ subject classification

  • Production Engineering, Human Work Science and Ergonomics
  • Manufacturing, Surface and Joining Technology
  • Ceramics

Free keywords

  • non-CRM
  • tooling
  • wear
  • PCD
  • diamond
  • cBN
  • boron nitride
  • HPHT
  • Machining
  • binder