Skip to main navigation
Skip to search
Skip to main content
VTT's Research Information Portal Home
Search content at VTT's Research Information Portal
Home
Profiles
Research output
Projects
Datasets
Research units
Research Infrastructures
Activities
Prizes
Press/Media
Impacts
Chromium-based bcc-superalloys strengthened by iron supplements
Kan Ma
, Thomas Blackburn
, Johan P. Magnussen
, Michael Kerbstadt
,
Pedro A. Ferreirós
,
Tatu Pinomaa
, Christina Hofer
, David G. Hopkinson
, Sarah J. Day
, Paul A.J. Bagot
, Michael P. Moody
, Mathias C. Galetz
, Alexander J. Knowles
*
*
Corresponding author for this work
BA4509 Advanced materials for nuclear energy
BA5502 ProperTune ICME
University of Birmingham
DECHEMA-Forschungsinstitut (DFI)
University of Oxford
Diamond Light Source Ltd
Research output
:
Contribution to journal
›
Article
›
Scientific
›
peer-review
35
Link opens in a new tab
Citations (Scopus)
Overview
Fingerprint
Projects
(1)
Fingerprint
Dive into the research topics of 'Chromium-based bcc-superalloys strengthened by iron supplements'. Together they form a unique fingerprint.
Sort by
Weight
Alphabetically
Keyphrases
Chromium
100%
Superalloy
100%
Body-centered Cubic
100%
Iron Supplementation
100%
Coarsening Rate
75%
Volume Fraction
50%
NiAl
50%
Concentrated Solar Power
25%
Low Solubility
25%
Mechanical Performance
25%
Power Applications
25%
High Temperature Materials
25%
Interfacial Energy
25%
Oxidation Resistance
25%
Computational Design
25%
Nickel-based Superalloy
25%
Nickel-cobalt
25%
Orowan Strengthening
25%
Chromium Alloys
25%
Iron Addition
25%
Ferritic Superalloy
25%
Lattice Misfit
25%
Modified Alloys
25%
B2-NiAl
25%
Age Softening
25%
Compressive Yield Strength
25%
Fe Addition
25%
Fe-modified
25%
Microstructure Tailoring
25%
Body-centered Cubic Alloys
25%
Mechanical Properties at High Temperature
25%
Intermetallic Precipitates
25%
Coarsening Kinetics
25%
NiAl Intermetallic
25%
NiAl Precipitate
25%
Cobalt-based Superalloys
25%
INIS
iron
100%
precipitation
100%
chromium
100%
superalloys
100%
body centered cubic
100%
alloys
80%
matrices
60%
design
40%
solubility
40%
volume
40%
performance
20%
applications
20%
balances
20%
cost
20%
energy
20%
kinetics
20%
power
20%
mechanical properties
20%
microstructure
20%
phase diagrams
20%
melting points
20%
pressure range mega pa
20%
increasing
20%
high temperature
20%
oxidation
20%
nanostructures
20%
yield strength
20%
intermetallic compounds
20%
nickel
20%
cobalt
20%
ferritic steels
20%
chromium alloys
20%
iron additions
20%
Material Science
Chromium
100%
Coarsening
100%
Superalloys
100%
Volume Fraction
50%
Yield Stress
25%
Nickel-Based Superalloys
25%
Oxidation Resistance
25%
Intermetallics
25%
Chromium Compound
25%
Refractory Material
25%