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13 441 (0,168s)

Project

Research and development of forging technology for middle-sized forgings of nickel and titatium based alloys (FV10019)

to forge Ni and Ti based alloys. The partial aim is to describe the deformation behavior of Ni and Ti based alloys used for production of turbine blades and other the project the formability of N...

JG - Hutnictví, kovové materiály

  • 2016 - 2019
  • 15 126 tis. Kč
  • 11 441 tis. Kč
  • MPO
Project

Understanding of the magnetostriction in Fe-Ti alloys by first-principles calculations (8J18AT004)

magnetostrictive Ti-based alloys. Concepts for controlling the thermal expansion may make use in one of the phases in selected transition-metal (TM)-Ti alloys. Characterisation of the thermal expansion an...

Condensed matter physics (including formerly solid state physics, supercond.)

  • 2018 - 2019
  • 171 tis. Kč
  • 171 tis. Kč
  • MŠMT
Project

Complex investigation of advanced beta-titanium alloys designed for biomedicine (GAP107/12/1025)

will be related to their mechanical properties. New alloys based on TNZT (Ti-35Nb-7Zr-5Ta beta-Ti alloys for biomedical applications and the development of a new alloy properties and biological r...

JG - Hutnictví, kovové materiály

  • 2012 - 2015
  • 9 744 tis. Kč
  • 9 744 tis. Kč
  • GA ČR
Project

Comprehensive research on joint replacements, with improved functional characteristics, based on beta titanium alloys (TA01011141)

The aim of the project is to develop new replacements of joints (hip, shoulder) based on β-Ti alloys with a reduced elastic modulus, which tailors the characteristics of bones. This adaptation of mechanical properties and t...

FI - Traumatologie a ortopedie

  • 2011 - 2014
  • 10 800 tis. Kč
  • 8 630 tis. Kč
  • TA ČR
Project

Tailoring elasticity of Ti-based alloys by thermally and stress induced phase transformations (GA17-04871S)

The project is focused on studying the coupling between mechanical stress and phase transitions in metastable beta-Ti alloys, with the aim to explore possibilities of controlling the elastic constants of these alloys by tai...

JG - Hutnictví, kovové materiály

  • 2017 - 2019
  • 9 629 tis. Kč
  • 8 814 tis. Kč
  • GA ČR
Project

Investigation of the interplay between deformation, phase transformations and mechanical properties in metastable beta-titanium alloys (GF22-21151K)

temperatures in metastable β-Ti alloys, represented by model binary Ti-Mo alloys and the mechanisms of recovery and recrystallization in β-Ti alloys. The project will benefit condition of this cl...

Mechanical engineering

  • 2022 - 2025
  • 5 543 tis. Kč
  • 5 280 tis. Kč
  • GA ČR
Project

Investigation of Phase Transformations in Metastable Beta-Ti Alloys for Biomedical Applicatipons (LH13005)

The objective of this basic research project is to optimize properties of selected Ti alloys for biomedical applications. The partial objectives allowing to meet and alpha phase formation in TIMETAl LCB and Ti-Mo alloys...

JG - Hutnictví, kovové materiály

  • 2013 - 2015
  • 1 854 tis. Kč
  • 1 854 tis. Kč
  • MŠMT
Project

Nanodomain evolution and phase-change dynamics in metastable beta-Ti alloys (GN25-16126O)

The advanced medical metastable beta Ti alloys consist of two distinct groups based on superelastic behavior: classical superelastic alloys undergoing bulk martensitic transformation upon loading and alloys

Materials engineering

  • 2025 - 2027
  • 4 994 tis. Kč
  • 4 508 tis. Kč
  • GA ČR
Project

Transformation induced plasticity (TRIP) in titanium alloys and high entropy alloys (GM21-18652M)

of interstitial Ti alloys and refractory metals high entropy alloys (HEAs) exhibiting the transformation induced plasticity (TRIP) effect. To achieve the TRIP effect in Ti alloys applicant will employ his...

Mechanical engineering

  • 2021 - 2025
  • 22 819 tis. Kč
  • 22 819 tis. Kč
  • GA ČR
Project

Non-conventional application of field assisted sintering technique for manufacturing of lightweight materials (GA19-11275S)

will be investigated for aerospace high strength lightweight Ti-based alloy Ti5553. Secondly, enhanced diffusion during FAST allows alloying of complicated alloys from elemental powders. Specialized biome...

Materials engineering

  • 2019 - 2023
  • 8 985 tis. Kč
  • 8 382 tis. Kč
  • GA ČR
  • 1 - 10 out of 13 441