| 3 - 10 |
Plastic deformation in metals with nanosized grains: Atomistic simulations and experiments
Van Swygenhoven H |
| 11 - 17 |
Modelling grain boundary sliding from first principles
Molteni C |
| 19 - 25 |
Multi-scale modeling of nanocrystalline materials
Chandra N, Namilae S |
| 27 - 32 |
Grain boundary sliding of Sigma 5(001) twist grain boundary in aluminium bicrystal from first-principles calculations
Uesugi T, Tsuchiya K, Kohyama M, Higashi K |
| 33 - 38 |
Assessment of contribution of intragranular slip to grain boundary sliding in bicrystals
Sheikh-Ali AD, Garmestani H |
| 41 - 47 |
Cooperative grain boundary processes in superplastic flow
Zelin M, Mukherjee A |
| 49 - 54 |
Dynamics of grain boundary networks in superplasticity
Wakai F, Akatsu T, Shinoda Y |
| 55 - 60 |
Comparison between 2D and 3D characterisations of damage induced by superplastic deformation
Yu HQ, Blandin JJ, Salvo L |
| 61 - 66 |
Dynamic grain growth in superplastic and non-superplastic aluminium alloys
Bate PS, Hyde KB, Court SA, Humphreys FJ |
| 67 - 72 |
Cavitation behaviors in a tetragonal zirconia polycrystal subjected to superplastic deformations measured by SANS method
Harjo S, Motohashi Y, Saroun J, Ryukhtin V, Strunz P, Baron M, Loidl R |
| 73 - 78 |
Simulation of superplastic deformation based on a mantle model
Kim BN, Morita K, Hiraga K |
| 79 - 84 |
Dynamic grain growth in a non-superplastic Al-6Ni alloy
Hyde KB, Bate PS |
| 85 - 90 |
Physical theory of superplastic flow in spatially extended crystalline systems
Munoz-Andrade JD |
| 91 - 96 |
Constitutive equation for superplastic flow in light metallic materials
Watanabe H, Mukai T, Higashi K |
| 97 - 101 |
Grain-size-dependent cooperative grain-boundary sliding in superplastic deformation
Muto H, Takahashi Y, Sakai M |
| 105 - 110 |
Multi-scale analysis of failure during superplastic deformation
Thuramalla NV, Deshmukh PV, Khraisheh MK |
| 111 - 116 |
The measurement of friction for superplastic forming of Ti-6Al-4V
Kelly RB, Leen SB, Pashby IR, Kennedy AR |
| 117 - 122 |
Finite element simulation for superplastic forming process of aluminium 5083
Samekto H, Roll K |
| 123 - 129 |
Design of SPF dies based on advanced material behaviour models
Bernhart G, Nazaret F, Martinier A, Gao C, Garriga-Majo D, Cutard T, Lours P |
| 131 - 137 |
Computer simulation of superplastic forming in restorative dentistry
Wood RD, Curtis RV, Bonet J, Said R, Gil A, Garriga-Majo D, Li X |
| 139 - 144 |
The influence of pulsating strain rates on the superplastic deformation behaviour of Al-alloy AA5083 investigated by means of cone test
Vulcan M, Siegert K, Banabic D |
| 145 - 151 |
Results of in-house cone-cup testing of low to high temperature SPF-alloys
Beck W |
| 153 - 158 |
A production system using ceramic die technology for superplastic forming
Sanders DG |
| 159 - 164 |
Manufacturing of shaped forms from stainless steels with superplastic forming
Romu J, Yagodzinskyy Y, Beck W, Hanninen H |
| 165 - 170 |
Constitutive modeling of deformation-induced anisotropy in superplastic materials
Abu-Farha FK, Khraisheh MK |
| 171 - 176 |
Hyperbolic sine representation of a constitutive equation for superplastic forming grade Inconel 718
Zhang B, Mynors DJ, Mugarra A, Ostolaza K |
| 177 - 182 |
Advances in manufacturing superplastically formed and diffusion bonded components
Hefti L |
| 183 - 188 |
Numerical simulation of superplastic forming and its microstructure evolution
Jin QL, Liao XF |
| 189 - 195 |
ISO proposal of a "method for evaluation of tensile properties of metallic superplastic materials"
Watanabe H, Ono F, Higashi K |
| 199 - 204 |
On the expanded usage of superplastic forming of aluminium sheet for automotive applications
Friedman PA, Luckey SG |
| 205 - 210 |
Series production of automotive body panels in 5083-SPF using a new press concept
Dunwoody BJ |
| 213 - 219 |
Progress towards high superplastic strain rate aluminium alloys
Grimes R, Dashwood RJ, Flower HM, Jackson M, Katsas S, Todd G |
| 221 - 226 |
Superplastic behavior of a fine grained AZ61 alloy processed by large strain hot rolling
Perez-Prado MT, del Valle JA, Ruano OA |
| 227 - 232 |
Temperature deformation behaviour of a Mg-0.8Al alloy
Kottada RS, Chokshi AH |
| 233 - 238 |
Lowering the heat - The development of reduced SPF temperature titanium alloys for aircraft production
Comley PN |
| 239 - 246 |
Applying superplastic forming principles to titanium sheet metal forming problems
Swale W, Broughton R |
| 247 - 252 |
The superplastic forming technology of Ti-6Al-4V titanium alloy bellows
Zhang KF, Wang G, Wang GF, Wang CW, Wu DZ |
| 253 - 258 |
Filaments in superplastic deformed SiC particle reinforced aluminium alloy matrix composites
Zhang B, Wei Z, Wang Y, Jin Q, Mynors DJ |
| 259 - 264 |
Problems encountered in superplastic forming of Al 5083 parts
Gershon B, Eldror I, Arbel I, Milo I |
| 265 - 270 |
Superplastic blow forming of 2219 aluminium alloy
Kaibyshev R, Kazakulov I, Gromov D, Lesuer DR, Nieh TG |
| 271 - 276 |
High temperature ductility and deformation mechanism in a 2024 aluminium alloy
Takayama Y, Ishikawa N, Kato H, Watanabe H |
| 277 - 282 |
Application studies of new process and material for low-cost SPF/DB panel forming technology
Yajima S, Shimanuki M, Ogisu T, Kimura S, Oyama H |
| 283 - 288 |
Superplasticity in commercial Al 7475
Griffiths S, Whittle D, Ridley N, Todd RI |
| 291 - 297 |
High-strain-rate superplasticity in oxide ceramics
Hiraga K, Kim BN, Morita K, Sakka Y |
| 299 - 304 |
Dopant effect on the high-temperature grain boundary sliding in alumina
Yoshida H, Matsunaga K, Yamamoto T, Ikuhara Y, Sakuma T |
| 305 - 310 |
Superplastic phenomenon and electric properties of Sc2O3 doped zirconia-based ceramics
Motohashi Y, Akutsu S, Kakita S, Maruyama Y |
| 311 - 316 |
Application of pseudo-superplasticity to produce TiN/Ti5Si3 and TiC/Ti5Si3 nano grain composites for micro molding
Miyano N, Iwasa H, Isonishi K, Tanaka S, Sugiyama S, Ameyama K |
| 317 - 322 |
Production of y-TiAl sheets with improved superplastic properties by pack rolling
Shagiev MR, Salishchev GA, Imayev RM, Imayev VM, Kuznetsov A |
| 323 - 328 |
Role of diffusion creep in a superplastic zirconia-alumina composite
Swaroop S, Chokshi AH |
| 329 - 334 |
High-strain-rate superplasticity in 3mol%-Y2O3-stabilized tetragonal ZrO2 dispersed with 30vol% MgAl2O4 Spinel
Morita K, Kim BN, Hiraga K, Sakka Y |
| 335 - 340 |
Small dopant effect on the superplastic flow and failure in 3Y-TZP
Nakatani K, Nagayama H, Yoshida H, Yamamoto T, Sakuma T |
| 341 - 345 |
Effect of spinel second phase on high temperature deformation in alumina
Satapathy LN, Chokshi AH |
| 347 - 352 |
Creep of Zirconia/Nickel composites
Morales-Rodriguez A, Bravo-Leon A, Dominguez-Rodriguez A, Jimenez-Melendo M |
| 353 - 358 |
Plastic behaviour of nanostructured yttria tetragonal zirconia polycrystals: The effect of yttrium segregation
Lorenzo-Martin C, Gomez-Garcia D, Gallardo-Lopez A, Dominguez-Rodriguez A, Chaim R |
| 359 - 364 |
Effect of yttrium on the deformation of nanocrystalline ZrO2 at elevated temperatures
Yoshida M, Shinoda Y, Akatsu T, Wakai F |
| 365 - 370 |
Superplastic behavior in small amount of Ge-TiCo-doped TZP
Nagayama H, Kuwabara A, Yoshida H, Sakuma T |
| 373 - 379 |
Deformation processing, recrystallization and grain boundaries in superplastic aluminum alloys
McNelley TR, Swisher DL |
| 381 - 386 |
In situ observations of microstructural evolution during deformation of supral 100
Huang Y, Humphreys FJ, Ridley N |
| 387 - 387 |
Obituary, professor Harvey M Flower FIM FRAeS
Gregson P |
| 389 - 394 |
The influence of Al3Zr precipitation on the superplastic behaviour of aluminium alloys
Flower HM, Boyle GJ, Dashwood RJ, Grimes R |
| 395 - 400 |
Recrystallized grain size in cold-rolled and annealed AZ31 wrought magnesium alloys affected by rolling direction
Itoh G, Motohashi Y, Iseno Y |
| 403 - 409 |
Producing superplastic ultrafine-grained aluminum alloys through severe plastic deformation
Xu C, Furukawa M, Horita Z, Langdon TG |
| 411 - 416 |
Microstructural aspects in superplasticity of ultrafine-grained SPD alloys
Valiev RZ, Islamgaliev RK, Yunusova NF |
| 417 - 422 |
Superplastic behaviour and microstructure evolution in a commercial ultra-fine grained Al-Mg-Sc alloy
Musin F, Kaibyshev R, Motohashi Y, Itoh G |
| 423 - 428 |
Ultrafine-grain structures produced by severe deformation processing
Apps PJ, Heason CP, Prangnell PB |
| 429 - 434 |
Fine microstructure production through sandglass extrusion
Wang Y, Lu WL, Hai JT |
| 435 - 440 |
Effect of grain size and microstructure on appearance of low temperature superplasticity in Al-Mg alloy
Noda M, Funami K, Hirohashi M, Kobayashi M |
| 441 - 446 |
Characterization of submicron-grained Ti-6Al-4V sheets with enhanced superplastic properties
Salishchev GA, Valiakhmetov OR, Galeyev RM, Froes FH |
| 447 - 452 |
Achieving superplasticity in the 7055 aluminum alloy
Kaibyshev R, Sakai T, Nikulin I, Musin F |
| 453 - 458 |
Superplasticity in an 7475 aluminum alloy subjected to equal channel angular extrusion
Nikulin I, Kaibyshev R, Sakai T, Musin F |
| 459 - 464 |
Development of submicrocrystalline titanium alloys using "abc" isothermal forging
Salishchev GA, Zherebtsov SV, Valiakhmetov OR, Galeyev RM, Mironov SY |
| 465 - 470 |
Achievement of low temperature superplasticity in a commercial aluminium alloy processed by equal-channel angular extrusion
Musin F, Kaibyshev R, Motohashi Y, Itoh G |
| 471 - 476 |
High temperature deformation and crystallographic orientation distribution for an Al-Mg-Mn alloy sheet worked by continuous cyclic bending
Takayama Y, Itoh T, Harunari E, Kato H, Furushiro N |
| 477 - 482 |
Influence of channel geometry on superplasticity in equal-channel angular pressing
Kamachi M, Fujinami T, Horita Z, Langdon TG |
| 483 - 488 |
Superplasticity of a Cu-Zn-Sn alloy processed by equal-channel angular pressing
Neishi K, Uchida T, Ashie N, Yamauchi A, Nakamura K, Horita Z, Langdon TG |
| 489 - 494 |
Microstructure and superplastic properties at room temperature in Zn-22AI alloy after equal-channel-angular extrusion
Tanaka T, Watanabe H, Kohzu M, Higashi K |
| 497 - 503 |
A nano-crystalline Zn-Al alloy with high speed superplasticity at room temperature and the application for seismic damper
Makii K, Furuta S, Aoki K, Kushibe A, Tanaka T, Higashi K |
| 505 - 511 |
Superplastic forming of 7475 Al sheet after friction stir processing (FSP)
Mahoney M, Barnes AJ, Bingel WH, Fuller C |
| 513 - 519 |
The dieless drawing of high carbon steel
Carolan R, Tiernan P, Commerford P |
| 521 - 526 |
Sandwich panel with aluminium foam core through superplastic diffusion bonding
Sato E, Kitazono K, Kuribayashi K, Kitajima A, Matsushita JI |
| 527 - 532 |
Diffusion bonding on superplastic-aluminum and -magnesium alloys
Somekawa H, Watanabe H, Mukai T, Higashi K |
| 533 - 539 |
Use of laser(s) in the process of Superplastic Forming and Diffusion Bonding
Jocelyn A, Kar A, Jonik M, Keevil A, Ackerman M, Way J, Flower T |
| 541 - 545 |
Enhanced foaming of cellular metals by internal stress superplasticity
Kitazono K, Sato E, Kuribayashi K |
