International Conference on Shape Memory and Superelastic Technologies

Deleted .................................................................................................................... 82 Influence of High Strain Rate Deformation on Microstructure and Mechanical Properties of Martensitic NiTi Shape Memory Alloys ..................................... 83 Ying Qiu, Marcus L. Young, and Xu Nie, University of North Texas Characterization of Welded Nitinol Joints by Nondestructive Testing ............................. 84 Rainer Steegmüller, Markus Wohlschlögel, Gunter Gläßel, Alexander Dillenz, Peter Mayr, and Andreas Schüßler Modeling and Novel Experiments II Novel Experiments and Simulations to Study Transformation, Plasticity, and Precipitate Effects in Shape Memory Alloys ....................................................................... 85 Peter Anderson, Matthew Bowers, Xiang Chen, Daniel Coughlin, Harshad Paranjape, Sivom Manchiraju, Michael Mills, and Ronald Noebe (1) The Ohio State University (2) NASA Glenn Research Center Laser Cutting Simulation of Nitinol Stent Alloy with Moving Heat Flux ............................ 86 C.H. Fu and Y.B. Guo Efficient Analysis of Shape Memory Alloy Single Crystalline and Textured Polycrystalline Responses via Anisotropic Yield Surfaces ............................... 87 D. Hartl, B. Kiefer, R. Schulte, and A. Menzel Microscopic Modeling and Simulation of Martensite/Austenite Phase Transformations in Shape Memory Alloys ........................... 88 P. Biscari, A. Zanzottera, G. Indelicato, M.F. Urbano, and G. Zanzotto (1) Politecnico di Milano (2) Universita di Torino (3) SAES Getters S.p.A. (4) Universita di Padova Mechanics of Twin Boundaries and Elastic Anisotropy in NiTi ......................................... 89 M.F.-X. Wagner and S. Pfeiffer Simulation of Advanced SMA Applications—Porous and Self-Healing Structures ......... 90 Pingping Zhu, L. Catherine Brinson, and Aaron P. Stebner (1) Northwestern University (2) Colorado School of Mines Macroscale Characterization III Effect of Strain Rate on the Localization Behavior of Pseudoelastic NiTi during Simple Compression and Compression-Shear Testing ................................................................................................. 91 C. Elibol and M.F.-X. Wagner Laser Cut Nitinol Medical Device Material—Non Zero Mean Strain Fatigue Life .............. 92 Stephen J. Forcucci, MSME Fatigue Enhancement of Shape Set NiTi Components via Micro Peening ....................... 93 Brandon Liechty A Torsion Based Approach for Fatigue Testing of Nitinol Tube ........................................ 94 Dennis W. Norwich, Michael Ehrlinspiel, and Marco Urbano (1) Memry Corporation (2) SAES Getters In Situ Testing and Characterization Characterization and Modeling of Transformation-Induced Defects in Pseudoelastically-Deformed NiTi Microcrystals ................................................................. 95 M.L. Bowers, X. Chen, P.M. Anderson, and M.J. Mills Texture Evolution during Nitinol Martensite Detwinning and Phase Transformation ........................................................................................................... 96 S. Cai, J.E. Schaffer, Y. Ren, and C. Yu Compositional Stability of the P-Phase in Ti11(Ni,Pd)13 Alloys ........................................ 97 Anne C. Coppa, B.C. Hornbuckle, Xiao-Xiang Yu, Gregory B. Thompson, Mark L. Weaver, and Ronald D. Noebe Harnessing the Full Power of NiTiNOL in Orthopaedics— Beyond Guide Wires, Staples, and Anchors ....................................................................... 98 Kenneth Gall, Georgia Institute of Technology Anisotropic Stress-Strain-Behavior and Elastic-Constant-Tensor of Monoclinic B19' NiTi .............................................................................................................. 99 P.M. Kadletz, M. Hoelzel, and W.W. Schmahl Full Field, In-Situ Observations of Damage Accumulation in Superelastic NiTi under Low Cycle Fatigue ....................................................................... 100 Michael Kimiecik, J. Wayne Jones, and Sam Daly In-Situ Studies during Cyclic Loading of NiTi-Based Shape Memory Alloy Actuators ...................................................................... 101 P. Sedmák, P. Šittner, and C. Curfs Fatigue of Notched Superelastic Nitinol ............................................................................ 102 Alex S. Teiche and Kenneth E. Perry Posters Fracturing Simulation of Cruciform Joint under Biaxial Loads ....................................... 103 A.M. Al-Mukhtar Microstructural Evolution and Transformation Behavior of an Aged Ti-Ni-Au Shape Memory Alloy ................................................................................... 104 T.M. Butler, G.B. Thompson, and M.L. Weaver Analogies and Differences between Tensile and Free Recovery (TFR) and the Common Techniques for Superelastic Nitinol Characterization ..................................... 105 A. Cadelli, A. Coda, R.M. Manjeri, and F. Sczerzenie (1) SAES Getters S.p.A. (2) SAES Smart Materials Transformation and Deformation Mechanisms in High Temperature Shape Memory Alloys with Nanoprecipitates .................................... 106 L. Casalena, F. Yang, D. Coughlin, M. Bowers, Y. Gao, X. Chen, H.M. Paranjape, M.J. Mills, Y. Wang, P. Anderson, R. Noebe, G. Bigelow, D. Gaydosh, and S. Padula (1) The Ohio State University (2) University of Duisburg-Essen, Germany Effect of H-Phase Precipitates on the Performance of Ni-TiHf High-Temperature SMAs ........................................................................................ 107 X. Chen, F. Yang, M.J. Mills, P.M. Anderson, D.R. Coughlin, R.D. Noebe, and H.E. Karaca (1) The Ohio State University (2) Los Alamos National Laboratory (3) NASA Glenn Research Center (4) University of Kentucky Al-NiTi Metal Matrix Composites for Next Gen Zero CTE Materials— Modeling and Fabrication .................................................................................................... 108 Adam Hehr, Xiang Chen, Marcelo Dapino, and Peter Anderson, The Ohio State University Investigation of Shape Memory and Super Elasticity Effects of Ni-Ti Single and Bi-Layer Thin Films .................................................................................. 109 Maryam Mohri, Mahmoud Nili-Ahmadabadi, Mohammad Hassan Malekoshoaraie, and Horst Hahn (1) University of Tehran (2) Karlsruhe Institute of Technology Influence of Precipitation in 50.3Ni-32.2Ti-17.5Zr (at.%) on Microstructure and Shape Memory Behavior .................................................................... 110 S. Kornegay, B.C. Hornbuckle, G. Bigelow, R. Noebe, M.L. Weaver, and G.B. Thompson A Phase Field/Finite Element Approach to Model Coupled Phase Transformation and Plasticity in Shape Memory Alloys (SMA) .............................................................................................. 111 Harshad Paranjape and Peter M. Anderson, The Ohio State University Influence of Microstructure on the Fatigue Performance of Nitinol— A Computational Analysis ................................................................................................... 112 F.M. Weafer and M.S. Bruzzi, National University of Ireland Author Index ......................................................................................................................... 113