superplasticity : Related Words Words similar in meaning to superplasticity
- superplastic«
- grain size«
- solid«
- point«
- temperature«
- deformation«
- pole thickness«
- breaking«
- metal«
- -icity«
- component«
- fine grain size«
- thickness strain«
- alloy«
- pressure«
- hemisphere«
- blank«
- ti«
- fig«
- gas pressure«
- al«
- ot4«
- strain rate«
- mn alloy«
- grain boundary«
- al2o3«
- ceramic«
- ceramic material«
- cavitations«
- flow stress«
- microstructure«
- bulge«
- cavity«
- alumina«
- material«
- atom«
- die«
- mould«
- aerospace application«
- superplastic strain rate«
- superplastic bulge«
- super plastic behaviour«
- original blank thickness«
- iron aluminides«
- fe‐mn‐al alloy«
- fe3al«
- fe al alloy«
- bulge profile«
- process«
- phase«
- thickness distribution«
- superplastic deformation«
- initial thickness«
- significant thinning«
- temperature deformation«
- ultrasonic technique«
- thickness«
- superplastic forming«
- temperature range«
- maximum elongation«
- air pressure«
- candidate material«
- sheet«
- graphite«
- top chamber«
- set temperature«
- significant change«
- applied stress«
- pressure range«
- grain growth«
- sheet material«
- pole«
- aluminium«
- microstructures«
- bubble«
- zirconium«
- chemical bond«
- diaphragm«
- base«
- bonding«
- range«
- titanium«
- rupture«
- close contact«
- magnesium«
- usual breaking«
- uniform thinning«
- ti—6 al—4v«
- thinning factor«
- tetragonal zirconium oxide«
- tensile flow stress«
- tensile elongation«
- temperature superplastic bulge«
- temperature superplastic behaviour«
- temperature deformation behaviour«
- superplasticity:dr r h johnson metallurgical review«
- superplastic titanium alloy«
- superplastic sheet thermoforming«
- superplastic route«
- superplastic property«
- superplastic forming capability«
- superplastic forming behaviour«
- superplastic al«
- super plasticity behaviour«
- super plasticity«
- super plastic deformation«
- successful superplastic forming«
- subsequent electrical treatment«
- strain rate sensitivity parameter«
- strain rate range«
- standard processing route«
- spf technology«
- specific alloy matrix composite«
- specialized casting technique«
- single surface tool«
- sheet bulge«
- sheet alloy thickness«
- shape processing technology«
- rupture elongation«
- result –in summary-«
- rate superplasticity«
- rapid anisotropic grain growth«
- process progress«
- post deformation micro«
- phase superplastic ceramic«
- phase alumina«
- nose barrel assembly«
- mullite(3al2o3•2sio2)-zirconia«
- model ceramic system«
- micro structural mechanism«
- metallographic examination«
- maximum strain rate sensitivity index«
- material super plastic potentiality«
- linear intercept method«
- largest elongation«
- intriguing material«
- instantaneous grain size«
- initial blank thickness«
- inert gas flushing«
- hot tensile testing«
- hot tensile test«
- hemispherical component«
- heated male mould«
- heated hydraulic press«
- grain al2o3«
- free bulging process«
- forming time«
- fine zral3 precipitate«
- fine stable grain size«
- fine grain size experience rapid grain growth«
- fine grade size«
- female forming process«
- fe-28al-4ti alloy«
- fe-28al-2ti«
- fe-28al«
- exact outer contour«
- equal volume fraction«
- dome cross section«
- dislocation accommodation«
- dimensional grain size«
- dilute aluminium alloy«
- diffusion accommodation«
- die- assembly«
- dedicated tooling«
- conventional fine grain size super plastic alloy«
- complex featuring«
- complete forming«
- common chemical bond«
- commercial alloys«
- cheaper alloying addition«
- ceramic superplastic forming«
- ceramic superplastic«
- ceramic material wide range«
- cavitation porosity«
- bulge height/depth«
- blank/die interface friction«
- blank holder pressure«
- average strain rate sensitivity«
- astm grain size«
- argon gas cylinder«
- alumina phase exhibit superplasticity«
- alloy exhibit superplastic behavior«
- alloy characteristic«
- al2o3)«
- % cu-0.5%zr«
- furnace«
- superplastic metal«
- superplastic material«
- superplastic ceramic«
- reverse pressure«
- punch surface«
- production angle«
- hot deformation«
- grain elongation«
- grain boundary sliding«
- exceptional dimensional accuracy«
- equipment intensive«
- cold forming technique«
- characteristic y«
- bulging process«
- atomic scale structure«
- air pressure force«
- % manufacturing cost reduction«
- tool«
- uniform deformation«
- supral«
- successful forming«
- specific material parameter«
- solid crystalline material«
- single bulge«
- oxidation resistant«
- metal london«
- local narrowing«
- heated press«
- grain size increase«
- excellent mechanical strength«
- composite ceramic material«
- aero engine component«
- periphery«
- bottom«
- rate«
- thermal equilibration«
- tetragonal zirconia«
- tensile deformation«
- subtend«
- series alloy«
- qualified material«
- microvoids«
- male mould«
- grain contact«
- bottom die«
- alloyed material«
- wear«
- contact«
- usual prerequisite«
- most ceramic«
- dome height«
- dislocation generation«
- coarse grain structure«
- assembly requirement«
- strain rate sensitivity«
- male mold«
- structural ceramic«
- low strain rate«
- fine dispersion«
- deformation characteristic«
- cu alloy«
- commercial alloy«
- bubble shape«
- advantage«
- local thickness«
- impact toughness«
- process designer«
- li alloy«
- fine grain structure«
- die cavity«
- deformed material«
- linear variable differential transformer«
- circular sheet«
- homologous temperature«
- matrix composite«
- set pressure«
- dynamic recrystallization«
- alloy sheet«
- austenitic steel«
- method«
- assembly cost«
- parameter«
- y2o3«
- temperature strength«
- commercial feasibility«
- average grain size«
- yttrium oxide«
- strength increase«
- maximum time limit«
- conclusion«
- thermal barrier coating«
- tensile test«
- double curvature«
- aluminium atom«
- elimination«
- thermal shock resistance«
- smooth contour«
- metallic bond«
- atomic diffusion«
- stable particle«
- tensile testing«
- steel«
- aircraft assembly«
- tank warhead«
- zener«
- counter punch«
- ability«
- aerospace product«
- other spin«
- grain«
- flexural strength«
- conventional route«
- thermal insulator«
- cr2o3«
- cut surface«
- yttria«
- ionic bonding«
- complex component«
- compound«
- doped«
- property«
- process condition«
- ceramics«
- silica glass«
- argon gas«
- time«
- uniform manner«
- significant post«
- premature failure«
- minute«
- wear resistance«
- pressure chamber«
- transverse direction«
- convex surface«
- iron«
- phase transformation«
- low thermal conductivity«
- stowell«
- dopants«
- fine grain«
- internal stress«
- piping system«
- mechanism«
- optical microscopy«
- zirconia«
- molten glass«
- performance criterion«
- initial impression«
- electrical insulator«
- schematic diagram«
- newtonian fluid«
- thermal shock«
- titanium alloy«
- crystalline material«
- sliding«
- study«
- tio2«
- transmission electron microscopy«
- structural study«
- covalent«
- metal sheet«
- surface texture«
- lead time«
- cycle time«
- nose cone«
- weight reduction«
- complex shape«
- single sheet«
- single crystal«
- prototyping«
- main effort«
- corrosion resistance«
- aluminium alloy«
- failure«
- regardless«
- many study«
- vanadium«
- techniques«
- shape«
- micrometres«
- fastener«
- elongation«
- original size«
- oxygen atom«
- sharp edge«
- practical reason«
- stabilizer«
- aerospace industry«
- forming«
- function«
- tooling«
- ambient temperature«
- burr«
- dislocation«
- result«
- significant reduction«
- main advantage«
- final form«
- chemical composition«
- grime«
- ambient«
- direction«
- tray«
- initial stage«
- oxide«
- material science«
- technology«
- unique feature«
- composite«
- fabrication«
- fracture«
- polymer«
- design«
- sept«
- operation«
- production«
- dependence«
- type«
- post«
- graph«
- 0.6mpa«
- 90mm diameter hemisphere«
- 600°c. easy removal«
- 520°c.these dilute alloy«
- 500-ppm mgo«
- 35-ton hydraulic press«
- 1mm thick cold«
- 0.8mpa«
- 0.87mpa«
- 3y«