| 1 - 8 |
An overview of superelastic Stent design
Duerig TW, Pelton AR |
| 9 - 16 |
Applications of shape-memory alloys in medical instruments
Fischer H, Vogel B, Gruhagen A, Brhel KP, Kaiser M |
| 17 - 24 |
An investigation of the selective stress-shielding effect of shape-memory sawtooth-arm embracing fixator
Dai K, Wu XT, Zu XS |
| 25 - 28 |
Mechanical characterization and animal experimentation of shape-memory aortic stents
Mi XJ, Zhu M, Kou YM, Guo JF, Miao WD |
| 29 - 32 |
Clinical application of custom aortic stent-graft
Li C, Zou CW, Peng ZQ, Ma HP |
| 33 - 36 |
Design and clinical applications of swan-like memory-compressive connector for upper-limb diaphysis
Zhang CC, Xu SG, Wang JL, Yu BQ, Zhang QL |
| 37 - 40 |
Surgical treatment of tibial and femoral fractures with TiNi shape-memory alloy interlocking intramedullary nails
Da GZ, Wang TM, Liu Y, Wang CM |
| 41 - 44 |
Design and clinical application of olecranon guiding memory fixator
Wang JL, Xu SG, Zhang XS, Li CM, Zhang CC |
| 45 - 48 |
Three-dimensional finite element analysis of nitinol patellar concentrator and its clinical significance
Xu SG, Zhang CC, Li SC, Su JC, Wang JL |
| 49 - 52 |
Design and application of three-dimensional memory fixation system for acetabular fracture
Zhang CC, Xu SG, Hou TS, Wang JL, Yu BQ |
| 53 - 56 |
Thermal modelling of Shape-Memory Alloy fixator for minimal-access surgery
Song C, Frank TG, Campbell PA, Cuschieri A |
| 57 - 60 |
Superelastic and thermally activated TiNi alloys and their applications in dentistry
Zheng YF, Huang BM |
| 61 - 68 |
Applications and development of shape-memory and superelastic alloys in Japan
Takaoka S, Horikawa H, Kobayashi J, Shimizu K |
| 69 - 74 |
Damping applications of Shape-Memory Alloys
Hodgson DE |
| 75 - 78 |
Shape-memory alloys in passive safety means
Ionaytis RR, Lisovoy VF |
| 79 - 82 |
Pseudoelastic flexure hinges in devices for high-precision tasks and investigations of their fatigue
Hesselbach J, Raatz A |
| 83 - 86 |
A new approach to the precision tracking control of shape-memory alloy actuators using neural networks and a sliding-mode based robust controller
Song G, Chaudhry V, Batur C |
| 87 - 90 |
Micro-gripper using two-way NiTi shape-memory alloy thin sheet
Huang WM, Gao XY, Loo BK, He LM, Ngoi BKA |
| 91 - 94 |
Development of two-way shape-memory alloy sheet for magic waterwheel
Tang WS, Deng J |
| 95 - 98 |
Hard disk drive assembly using copper-based shape-memory alloy
Huang WM, Gao XY, Ng Q, Liu QY, Kung HK, Liu X |
| 99 - 102 |
A study of SMA used for threaded connections having loosening-proof and anti-break functions
Shen YM, Du YL, Sun BC, Li JL |
| 103 - 106 |
Behavior analysis and design of FeMnSi alloy pipe-joints
Lin CX, Gu NJ, Zhao LC, Liu QS, Wen CS |
| 107 - 110 |
A study of NiTiNb shape-memory alloy pipe-joint with improved properties
Dong ZZ, Zhou SL, Liu WX |
| 111 - 114 |
SMA pseudo-rubber metal damper for random vibration control
Yan YJ, Nie JX |
| 115 - 118 |
Damping of superelastic NiTi-alloys under torsional loading
Predki W, Kloenne M |
| 119 - 122 |
A study of the vibration characteristics of TiNi shape-memory alloy
Lin PG, Tang CX, Huang ZH, Dong YS, Chu CG |
| 123 - 126 |
Influence of testing temperature on the vibration characteristics of TiNi shape-memory alloy combined with a spring
Lin PH, Tang CX, Huang ZH, Chu CL, Dong YS, Xiong JL |
| 127 - 130 |
A supporting tool for designing products based on shape-memory alloys
Welp EG, Breidert J |
| 131 - 138 |
Bioperformance of Nitinol: Surface tendencies
Shabalovskaya S, Ryhanen J, Yahia LH |
| 139 - 144 |
Bioperformance of Nitinol: in vivo biocompatibility
Ryhanen J, Shabalovskaya S, Yahia LH |
| 145 - 148 |
Corrosion of NiTi shape-memory alloys: Visualization by means of potentiometric "constant-distance" scanning electrochemical Microscopy
Schulte A, Belger S, Schuhmann W |
| 149 - 152 |
A study of TiNi shape-memory alloy modified by pulsed high-energy density plasma
Wu XF, Fu Y, Han Y, Hua WS, Yang SZ |
| 153 - 156 |
Microstructure and hemocompatibility of a phosphorus ion-implanted TiNi shape-memory alloy
Zhao XK, Cai W, Tian Y, Zhao LC |
| 157 - 160 |
Effect of aluminum ion implantation on superelastic properties of TiNi alloy
Asaoka T |
| 161 - 164 |
Gold coating of nitinol devices for medical applications
Steegmueller R, Wagner C, Fleckenstein T, Schuessler A |
| 165 - 168 |
Bioactive treatment of titanium surface using a H2O2/HCI solution
Wang XX, Osaka A |
| 169 - 172 |
Electropolishing for medical devices: Relatively new... fascinatingly diverse
Aslanidis D, Roebben G, Bruninx J, Van Moorleghem W |
| 173 - 176 |
Effect of surface preparation on mechanical properties of a NiTi alloy
Miao WD, Mi XJ, Zhu M, Guo JF, Kou YM |
| 177 - 184 |
Factors affecting the Ms temperature and its control in shape-memory alloys
Otsuka K, Ren X |
| 185 - 192 |
Microstructural evolution and deformation micromechanism of cold-deformed TiNi-based alloys
Zhao LC, Cai W, Zheng YF |
| 193 - 200 |
Application of atomic force microscope to studies of martensitic transformation in shape-memory alloys
Liu DZ, Kajiwara S, Kikuchi T, Shinya N |
| 201 - 204 |
Interfacial structure of twinned martensite in shape-memory alloys
Liu DZ, Dunne D |
| 205 - 208 |
Effect of grain boundaries on the superelastic deformation of CuAlMn shape-memory bicrystals
Kato H, Miura S |
| 209 - 212 |
Phenomena of aluminum segregation at the grain boundaries of Cu-Al-Be-X alloys
Dong YY, Wang CM, Gu YP, Liu YG |
| 213 - 216 |
Characteristics of lattice deformation during martensitic transformation
Gu NJ, Wang BQ, Li HL, Wen CS, Song XY |
| 217 - 220 |
Study of pre-martensitic phenomena in NiTi alloys by positron annihilation lifetime spectroscopy
Katsuyama J, Chalermkarnnon P, Mizuno M, Araki H, Shirai Y |
| 221 - 224 |
Role of oriented stress fields in two-way shape-memory alloys
Zhang XM, Fernandez J, Guilemany JM, Li B, Liu M, Sha XW |
| 225 - 228 |
Effect of low-temperature aging on the R-phase transformation of a Ti-50.9at%Ni alloy
Kim JI, Miyazaki S |
| 229 - 232 |
The B2-B19-B19' transformation in a Ti-44.7Ni-5Cu-0.3Mo alloy
Nam T, Noh J, Chung D, Hur S, Yoon MJ |
| 233 - 236 |
Quantitative texture analysis of polycrystalline shape-memory alloy NiTi neutron diffraction data by Rietveld refinement using the generalized spherical-harmonic description
Sitepu H, Schmahl WW, Von Dreele RB |
| 237 - 240 |
Texture and quantitative phase analysis of aged Ni-rich NiTi using X-ray and neutron diffractions
Sitepu H, Schmahl WW, Allafi JK, Eggeler G, Reinecke T, Brokmeier HG, Tovar M, Tobbens DM |
| 241 - 244 |
Mechanical properties and electrical resistance of TiNi shape-memory alloy
Jin JL, Chi YH |
| 245 - 248 |
Cyclic superelastic deformation of TiNi shape-memory alloy
Gong JM, Tobushi H, Takata K, Okumura K, Endo M |
| 249 - 252 |
Mechanical hysteresis in the pseudoelasticity of Ti-50.2at%Ni
Tan GS, Suseno T, Liu YN |
| 253 - 256 |
Thermo-mechanical and transformation behaviors of Ti-41.7Ni-8.5Cu (at%) shape-memory alloy wire
Hosogi M, Sakuma T, Okabe N, Okita K |
| 257 - 260 |
Effect of cold-working ratio on superelastic cyclic behavior and fatigue life in Ti-41.7Ni-8.5Cu (at%) shape-memory alloy wire
Hosogi M, Okabe N, Sakuma T, Okita K |
| 261 - 264 |
Stress-strain characteristics of TiNi shape-memory alloy wires after constrained thermal cycles
Cui LS, Zheng YJ, Li Y, Zhao XQ |
| 265 - 268 |
Martensite deformation during the phase transformation of TiNi shape-memory alloy under constraint
Li Y, Cui LS, Zhao XQ, Yang DZ |
| 269 - 272 |
Effect of pre-deformation on the transformation temperatures of TiNi shape-memory alloys
Jiang CB, Xu HB |
| 273 - 276 |
Effect of restraint stress on transformation temperatures and strain recovery in a Ni47Ti44Nb9 shape-memory alloy
Jin W, Cao MZ, Yang R, Hu ZQ |
| 277 - 280 |
Stress and deformation states in the annulus and shaft during constrained recovery
Kosel F, Videnic T |
| 281 - 284 |
One-dimensional SMA plasticity model applied to truss elements
Lazghab T, Wu KH |
| 285 - 292 |
Fabrication of nitinol materials and components
Wu MH |
| 293 - 296 |
Recent development of the SMA industry in China
Liu LH, Yang H, Wang LM, Zheng YF |
| 297 - 300 |
Melting and fabrication of NiTi shape-memory alloy wires
Wang LM, Liu LH, Yang H, Wang LY, Xiu GQ |
| 301 - 303 |
Topical problems in manufacturing semi-products (bars and wires) from TiNi-Based shape-memory alloys
Bondarev AB, Andreyev VA |
| 305 - 308 |
Miniaturization of nitinol material fabrication and processing: status and prospects
Steegmueller R, Schuessler A, Wick A |
| 309 - 312 |
Innovations: Laser-cutting nickel-titanium
Dickson TR, Moore B, Toyama N |
| 313 - 316 |
The effect of cold-work texture on the superelastic characteristics of nitinol sheet
Lin ZC, Boylan J |
| 317 - 320 |
A new approach to heat-treating NiTi micro-components
Cheng KL, Chung CY |
| 321 - 324 |
Effect of heat-treatment on phase transition temperatures of a superelastic NiTi alloy for medical use
Yeung KWK, Chung CY, Cheung KMC, Lu WW, Luk KDK |
| 325 - 328 |
Effects of thermomechanical pre-treatments on pseudo-elastic fatigue of a NiTi alloy
Heckmann A, Hornbogen E |
| 329 - 332 |
Thermo-mechanical fatigue and transformation behavior of TiNiCuSMA
Rong LJ, Miller DA, Lagoudas DC |
| 333 - 336 |
Time-dependent deformation behavior of TiNi shape-memory alloy
Rao GB, Wang JQ, Ke W, Han EH |
| 337 - 340 |
Shape-memory effect in titanium-nickel after preliminary dynamic deformation
Belyaev SP, Morozov NF, Razov AI, Volkov AE, Wang LL, Shi SQ, Gan S, Chen JY, Dong XL |
| 341 - 344 |
Elastic bulk and surface properties of thermally and mechanically cycled NiTi shape-memory alloys
Kaack M, Yohannes T, Gibkes J, Pelzl J, Heckmann A, Sitepu H, Schmahl W, Tankovsky N |
| 345 - 348 |
Photothermal characterisation of local and depth-dependent thermal properties of NiTi shape-memory alloys
Gibkes J, Kaack M, Delgadillo-Holtfort I, Dietzel D, Bein BK, Pelzl J, Buschka M, Weinert K, Bram M, Buchkremer HP, Stover D |
| 349 - 352 |
The slurry erosion characteristics of precipitation-hardened Ti49Ni51 shape-memory alloy
Wu SK, Lin HC, Yang CH |
| 353 - 356 |
Erosion resistance of Ti-Ni shape-memory alloy to hot water jet
Niu LB, Sakuma T, Takaku H, Kyougoku H, Sakai Y |
| 357 - 360 |
A study of the wear behavior of TiNiCu shape-memory alloy
Xu JJ, Guo JF, Wang DG, Cui LS |
| 361 - 364 |
Influence of Nb content and processing conditions on microstructure and functional properties of NiTiNb shape-memory alloys
Siegert W, Neuking K, Mertmann M, Eggeler G |
| 365 - 368 |
Influence of Zr additions on shape-memory effect and mechanical properties of Ni-rich NiTi alloys
Feng ZW, Gao BD, Wang JB, Qian DF, Liu YX |
| 369 - 374 |
Perspectives on the exploitation of CuZnAl alloys, FeMnSi-based alloys and ZrO2-containing shape-memory ceramics
Hsu TY |
| 375 - 382 |
Cu-based high-temperature shape-memory alloys and their thermal stability
Xu HB |
| 383 - 386 |
Effect of heat treatment on transformation behavior in CuAlNb shape-memory alloys with high transformation temperatures
Gong SK, Ma YQ, Jiang CB, Xu HB |
| 387 - 390 |
CuAlNi shape-memory alloys with thermomechanical behaviors designed by micromechanics modelling
Novak V, Sittner P |
| 391 - 394 |
Microstructural control and characterization of CuAlNi-based SMA fabricated by continuous casting process
Jang WY, Lee SH, Jee KK, Jeong SH, Kim KS, Lee EG |
| 395 - 398 |
Electropulse modification of polycrystalline CuAlNi shape-memory alloy, its macro- and microstructure
Chen QF, Wang JZ, Cai W, Zhao LC |
| 399 - 402 |
Shape-memory and superelasticity in CuZnSn alloy and its application
Miura S |
| 403 - 406 |
Further improvement in the shape-memory properties of FeMnSi-Based shape-memory alloys containing NbC precipitates
Baruj A, Kikuchi T, Kajiwara S, Shinya N |
| 407 - 410 |
Properties of FeMnSiCrNi shape-memory alloys with (0.1 similar to 0.5wt%) Nb additions
Dong ZZ, Liu WX, Chen JM, Sun GG |
| 411 - 414 |
Structural characteristics of epsilon-martensite formed under different tensile strains in an FeMnSiCrNiSMA
Liu QS, Gu NJ, Zhao LC, Lin CX, Wen CS |
| 415 - 418 |
Reversal transformation and smart characteristics of FeMnSiCrNiSMA
Gu NJ, Lin CX, Li GL, Wen CS, Wang BQ |
| 419 - 422 |
X-ray quantitative analysis of phases in FeMnSi-based shape-memory alloy
Wen CS, Lin CX, Gu NJ |
| 423 - 426 |
Effect of microstructure on shape-memory effect Fe-32Mn-6.5Si alloy
Jee KK, Jang WY, Chung YH, Shin MC |
| 427 - 430 |
Deformation behavior of FeMnSi-based shape-memory alloys
Guo ZG, Rong YH, Chen SP, Hsu TY |
| 431 - 434 |
Semi-empirical prediction of shape-memory effect in FeMnSi-based alloys
Wan JF, Chen SP, Hsu TY |
| 435 - 438 |
A study of the corrosion resistance and shape-memory effect of FeMnSiCrNiCo shape-memory alloy
Dong ZZ, Liu WX, Wang DF, Chen JM, Liu DZ |
| 439 - 442 |
Corrosion behaviors of Fe-based shape-memory alloys
Lin HC, Lin KM, Lin CS, Chen FH |
| 443 - 446 |
Effect of the Cr content on shape-memory effect and corrosion resistance of FeMnSiCrNi shape-memory alloys
Sun GG, Dong ZZ, Liu WX, Chen JM |
| 447 - 450 |
Stress-induced martensitic transformation and microstructure of a Ti36Ni49Hf15 high-temperature shape-memory alloy
Liu LH, Meng XL, Cai W, Zheng YF, Tong YX, Zhao LC, Zhou LM |
| 451 - 454 |
Microstructural investigation of TiPdNi alloy under loading-unloading cycling conditions
Tian QC, Wu JS |
| 455 - 458 |
Effect of the rare-earth element Ce on oxidation Behavior of TiPdNi alloys
Tian QC, Wu JS |
| 459 - 462 |
Shape-memory effect of Co-x%Ni alloys
Lee YK, Shin HC, Lee SH, Choi CS |
| 463 - 466 |
Stability of the two-way shape-memory effect of an aged NiAl-Fe alloy
Xie CY, Huang P, Wu JS |
| 467 - 474 |
Dynamic characteristics of diaphragm microactuators utilizing sputter-deposited TiNi shape-memory alloy thin films
Miyazaki S, Hirano M, No VH |
| 475 - 482 |
Vibrational properties of adaptive polymer matrix composites with embedded shape-memory alloy wires
Gotthardt R, Parlinska M |
| 483 - 486 |
Thermal and microstructural characterization of NiTi thin strips produced by twin-roll casting
Vermaut P, Ochin P, Dezellus A, Plaindoux P, Dalle F, Muguerra P, Portier R |
| 487 - 490 |
Bimorph-type microactuator using TiNi shape-memory thin film
Ishida A, Sato M, Yoshikawa W, Tabata O |
| 491 - 494 |
Study of incomplete phase transformation behavior in deformed TiNi thin film
Liu XP, Jin W, Cao MZ, Yang DZ |
| 495 - 498 |
Effect of heat treatment on the properties of Ti-25Ni-25Cu (at%) SMA melt-spun ribbons
Khantachawana A, Miyazaki S |
| 499 - 502 |
Sputter-deposited TiZrNi high-temperature shape-memory thin films
Sawaguchi T, Sato M, Ishida A |
| 503 - 506 |
Preparation and characterization of Cu-based shape-memory thin wires obtained by in rotating water melt-spinning
Ochin P, Dezellus A, Plaindoux P, Portier R, Pons J, Cesari E, Kozlov A |
| 507 - 510 |
Effect of betatizing on grain growth and transformation characteristics of a CuAlNiSMA ribbon with fiber structure
Jang WY, Lee YS, Jee KK, Lee EG |
| 511 - 514 |
Superelasticity of porous NiTi alloy fabricated by combustion synthesis
Li YH, Rong LJ, Li YY |
| 515 - 518 |
Low-density porous TiNi shape-memory alloy produced by the SHS process
Zhang XM, Yin WH, Wang LX, Wang XC |
| 519 - 522 |
Effect of prestrain on the reverse martensitic transformation of TiNi fibers embedded in an al matrix
Cui LS, Zheng YJ, Yan U, Yang DZ |
| 523 - 526 |
Constrained phase transformation of prestrained TiNi shape-memory alloy in cement composite
Li Y, Cui LS, Zhao XQ, Yang DZ |
| 527 - 530 |
Bonding behaviors at a NiTi/Epoxy interface: SEM observations and theoretical study
Lau K, Poon C, Yam L, Zhou L |
| 531 - 536 |
Giant magnetostriction in Fe3Pt and FePd ferromagnetic shape-memory alloys
Kakeshita T, Fukuda T |
| 537 - 540 |
Temperature dependence of magnetic shape-memory effect and martensitic structure of NiMnGa alloy
Glavatska N, Mogylny G, Glavatsky I, Tyshchenko A, Soderberg O, Lindroos VK |
| 541 - 544 |
Structure and magnetic properties of a shape-memory NiMnGa alloy
Ge Y, Sozinov A, Soderberg O, Lanska N, Heczko O, Ullakko K, Lindroos VK |
| 545 - 548 |
Ferromagnetic shape-memory alloy Ni2MnGa
Matsumoto M, Ohtsuka M, Miki H, Khovailo VV, Takagi T |
| 549 - 552 |
Two-step martensitic transformation characteristics of polycrystalline NiMnGa Heusler alloys
Lu X, Qin ZX, Chen XQ |
| 553 - 556 |
Influence of structural transition on transport properties of Ni2MnGa alloy
Zhou Y, Jin XS, Xu HB, Lee YP, Kudryavtsev YV, Kim KW |
| 557 - 560 |
Effect of magnetic heat treatment on the magnetically-induced strain in a polycrystalline Ni2MnGa alloy
Zhao YB, Qian M, Chen SP, Hsu TY |
| 561 - 564 |
Influence of Ni excess on structure and shape-memory effect of polycrystalline Ni2MnGa alloys
Liang T, Jiang CB, Feng G, Gong SK, Xu HB |
| 565 - 568 |
Corrosion behavior of NiMnGa shape-memory alloy
Liu XW, Soderberg O, Ge Y, Sozinov A, Lindroos VK |
| 569 - 572 |
Microstructure and stacking-fault probability in CoNi magnetic shape-memory alloys
Zhou WM, Jiang BH, Liu Y, Qi X |
| 573 - 576 |
Shape-memory effect in Ce-Y-TZP ceramics
Zhang YL, Jin XJ, Hsu TY, Zhang YF, Shi JL |
| 577 - 580 |
Thermomechanical properties of polyurethane shape-memory polymer foam
Tobushi H, Okumura K, Endo M, Hayashi S |
