superalloy : Related Words Words similar in meaning to superalloy
- alloy«
- superalloys«
- coating«
- ni«
- oxidation«
- temperature«
- bond coat«
- grain boundary«
- γ matrix«
- thermal barrier coating«
- phase«
- generation superalloys«
- co«
- carbide«
- temperature strength«
- γ'-phase«
- aluminides«
- tcp phase«
- ti«
- single crystal«
- nickel«
- material«
- surface«
- plasma spraying«
- substrate«
- al«
- directional solidification«
- cobalt«
- alloying element«
- re«
- corrosion resistance«
- oxidation resistance«
- overlay coating«
- superalloy substrate«
- mcraly«
- gamma prime«
- diffusion coating«
- chromium coating«
- diffusion«
- slice«
- wax form«
- oxide layer«
- chromium«
- rhenium«
- temperature capability«
- ceramic mold«
- solid solution«
- turbine blade«
- matrix«
- turbine entry temperature«
- creep resistance«
- turbine engine«
- melting«
- thermal spraying«
- process«
- tgo«
- selective oxidation«
- ta«
- aluminium«
- chromia«
- aluminum«
- formation«
- element«
- mo«
- powder metallurgy«
- volume fraction«
- γ’ phase«
- superalloy phase«
- m=ni«
- cermet coating«
- active coating material«
- yttrium«
- traditional ni«
- thermal ballast«
- tensile axis«
- single crystal superalloys«
- l12 structure«
- stress«
- precipitate«
- addition«
- ru«
- single crystal growth«
- pack cementation process«
- nanoparticle formation«
- grain boundary strengthening«
- aluminide«
- temperature gradient«
- carbide phase«
- carbide formation«
- oxide phase«
- creep strain«
- porosity«
- hot corrosion«
- creep deformation«
- ustb«
- energy plane«
- eb«
- intermetallic phase«
- creep«
- powder bed«
- application«
- dislocation«
- temperature performance«
- mechanical alloying«
- lattice mismatch«
- super alloy«
- lower temperature«
- slip plane«
- service temperature«
- crystal structure«
- dislocation motion«
- hot isostatic pressing«
- diffusion barrier«
- titanium«
- temperature material«
- phase boundary«
- cad file«
- coating process«
- property«
- demanding application«
- plasma«
- corrosion«
- layer«
- spalling«
- supersaturation«
- thermal expansion coefficient«
- raft«
- metal powder«
- reduction«
- temperature application«
- coherency«
- zirconia«
- metal«
- apb«
- resistance«
- melting temperature«
- centripetal force«
- casting«
- ruthenium«
- nucleation«
- gas turbine engine«
- ductility«
- tantalum«
- molten metal«
- particle«
- partition«
- microstructure«
- strength«
- growth«
- oxygen«
- technique«
- alumina«
- shape«
- elevated temperature«
- rafting«
- composition«
- fluoride«
- mechanical property«
- kinetics«
- boron«
- example«
- result«
- presence«
- adhesion«
- iron«
- depletion«
- mechanism«
- structure«
- fe«
- final product«
- plane«
- χ phase«
- γ’-ni3(al«
- γ’ precipitation«
- γ’ phase size«
- γ’ intermetallic phase«
- γ’ intermetallic compound«
- vacuum melting«
- vacuum crucible«
- usable coating«
- underlying bond coat«
- unaxial creep deformation«
- turbine airfoil temperature capability«
- tungsten carbide/cobalt«
- transient oxidation proceeds«
- transient oxidation«
- traditional metallurgical processing technique«
- tm alloy«
- third generation alloy«
- thin sacrificial oxide layer«
- thermomechanical fatigue strength«
- thermal cycling due«
- thermal creep deformation«
- thermal barrier coating systems«
- temperature ductility«
- tcp phase formation«
- tbc life«
- tantalum increase oxidation resistance«
- sx alloy exhibit«
- sx alloy development«
- superior hot corrosion«
- superalloys weaker«
- superalloy ’s matrix«
- superalloy surface«
- superalloy single crystal«
- superalloy product«
- superalloy processing«
- superalloy operating temperature«
- superalloy matrix material«
- superalloy manufacturing«
- superalloy development«
- subsequent diffusion heat treatment«
- sublattices a«
- sublattice b.«
- sublattice a. atom«
- spray speed«
- specific oxide phase«
- solidification technique«
- solid solution refractory element«
- slow diffuser«
- sixth generation superalloys«
- secondary γ’.«
- secondary aluminum oxide former«
- secondary aluminum oxide«
- sc superalloys«
- ruthenium addition«
- ru content«
- rené n6«
- rené n5«
- rené n4«
- reactive alloying element«
- rafting effect«
- pwa1480«
- pure ni3al phase atom«
- pt plating«
- primary creep deformation«
- primary creep behavior«
- pressure turbine region«
- preferred grain orientation«
- preferred crystal orientation«
- polycrystalline turbine blade«
- polycrystalline product«
- polycrystalline final product«
- polycrystalline cast«
- plane modulus«
- phase heat treatment«
- pack cementation«
- oxide layer adhesion«
- oxide adherence«
- oxidation behavior«
- original wax form«
- nimonic series incorporated γ«
- nimonic series alloy«
- ni3v«
- ni3nb«
- ni3(ti«
- ni3(al«
- monocrystalline cast«
- mono crystalline component«
- modern tbc«
- metastable γ’-co3(al«
- metal surface temperature«
- merged grain«
- mcralx«
- many superalloys«
- lower density comparable«
- low temperature surface«
- low oxygen diffusivities«
- key alloying element«
- jet engine operation temperature«
- initial material selection«
- inexpensive bomb casing«
- industrial gas turbine engine due«
- hot corrosion attack«
- hcp η phase«
- haynes alloy«
- grain boundary strengthers«
- grain boundary cohesion«
- gaseous aluminum chloride«
- gaseous aluminium chloride«
- gas phase coating«
- form secondary phase«
- fcc matrix«
- fcc l12 structure«
- fcc co3t«
- element ta«
- directional solidification technique«
- different specific technique«
- dense bond coat«
- decreased cr content«
- cuboidal γ’ particle«
- cuboidal γ’«
- cuboidal precipitate«
- cubic particle«
- cubic austenitic«
- crystal superalloys«
- crystal superalloy«
- creep resistance parallel«
- cr content«
- continuous γ matrix«
- continuous oxide layer«
- complex corrosion process«
- complete barrier layer«
- common alloy system«
- commercial ni«
- columnar microstructure«
- cobalt cermet coating«
- cobalt base alloy«
- coating mixture«
- coating mass«
- coating life«
- co3ti«
- cmsx-4 single crystal superalloy«
- cmsx single crystal alloy«
- chemical demand«
- chemical degradation superalloys«
- ceramic top coat«
- cent rhenium«
- carbon carbide«
- budget material«
- brittle tcp phase«
- blade life span«
- basic oxidation«
- base cousin«
- average bulk metal temperature«
- art turbine blade surface temperature«
- aps/vps«
- apb cross«
- anisotropic disc form«
- aluminum perform«
- aluminide bond coating«
- aluminide bond coat«
- alumina control oxidation mechanism«
- alloy performance«
- alloy development focus«
- alloy dependent«
- alloy cleanliness«
- advanced cooling concept«
- advanced coating technique«
- additive manufacturing procedure«
- additive manufacturing«
- additional grain boundary strength«
- gamma«
- extent«
- μ phase«
- turbine blade component«
- turbine airfoil«
- traditional co«
- thermal spray method«
- symmetry boundary«
- significant scatter«
- rene alloy«
- pwa1484«
- primary strengthening mechanism«
- pressure turbine section«
- polycrystalline alloy«
- particle shearing«
- oxide adhesion«
- modern superalloys«
- modern ni«
- military gas turbine engine«
- mcraly coating«
- incipient melting temperature«
- incineration furnace«
- growth stress«
- grain parallel«
- grain boundary motion«
- gamma double prime«
- future paradigm«
- electron beam physical vapour deposition«
- diffusion heat treatment«
- deleterious process«
- creep deformation behavior«
- conventional welding«
- coat thickness«
- careful precipitation«
- blade application«
- alloying addition«
- alloy due«
- % yttria«
- class«
- σ phase«
- vacuum plasma«
- tertiary creep«
- strain tolerance«
- phase microstructure«
- oxidation protection«
- niobium content«
- monocrystalline product«
- monocrystal«
- metallurgical processing technique«
- laser writer«
- excellent mechanical strength«
- coherency strain«
- basic material science«
- advanced aircraft engine«
- weight«
- γ-phase«
- yield strength anomaly«
- titanium aluminide«
- thermal insulation layer«
- temperature creep«
- substrate atom«
- oxide scale«
- oxide dispersion«
- oxidation proceeds«
- ni3al«
- modern processing technique«
- mechanical demand«
- layer underneath«
- law regime«
- hollow component«
- aluminide coating«
- advanced processing technique«
- failure«
- ti atom«
- surface stability«
- sequential oxidation«
- nickel aluminide«
- majority element«
- eglin steel«
- cuboidal structure«
- 7ysz«
- 1940s investment casting«
- 10nbsp&nm disc«
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