|On the development of high quality NiTi shape memory and pseudoelastic parts by additive manufacturing|
C Haberland, M Elahinia, JM Walker, H Meier, J Frenzel
Smart materials and structures 23 (10), 104002, 2014
|Process development and characterization of additively manufactured nickel–titanium shape memory parts|
JM Walker, C Haberland, M Taheri Andani, HE Karaca, D Dean, ...
Journal of Intelligent Material Systems and Structures 27 (19), 2653-2660, 2016
|Synthesis and biological evaluation of well-defined poly (propylene fumarate) oligomers and their use in 3D printed scaffolds|
Y Luo, CK Dolder, JM Walker, R Mishra, D Dean, ML Becker
Biomacromolecules 17 (2), 690-697, 2016
|Methods, devices, and manufacture of the devices for musculoskeletal reconstructive surgery|
HD Dean, MH Elahinia, C Haberland, MJ Miller, A Sutradhar, ...
US Patent App. 15/124,660, 2017
|Nondestructive evaluation of hydrogel mechanical properties using ultrasound|
JM Walker, AM Myers, MD Schluchter, VM Goldberg, AI Caplan, JA Berilla, ...
Annals of Biomedical Engineering 39 (10), 2521-2530, 2011
|Achieving biocompatible stiffness in NiTi through additive manufacturing|
M Taheri Andani, C Haberland, JM Walker, M Karamooz, A Sadi Turabi, ...
Journal of Intelligent Material Systems and Structures 27 (19), 2661-2671, 2016
|Effect of chemical and physical properties on the in vitro degradation of 3D printed high resolution poly (propylene fumarate) scaffolds|
JM Walker, E Bodamer, O Krebs, Y Luo, A Kleinfehn, ML Becker, D Dean
Biomacromolecules 18 (4), 1419-1425, 2017
|Additive manufacturing of shape memory devices and pseudoelastic components|
C Haberland, M Elahinia, J Walker, H Meier, J Frenzel
Smart Materials, Adaptive Structures and Intelligent Systems 56031, V001T01A005, 2013
|Design and mechanical characterization of solid and highly porous 3D printed poly (propylene fumarate) scaffolds|
JM Walker, E Bodamer, A Kleinfehn, Y Luo, M Becker, D Dean
Progress in Additive Manufacturing 2 (1), 99-108, 2017
|Visions, concepts and strategies for smart nitinol actuators and complex nitinol structures produced by additive manufacturing|
C Haberland, M Elahinia, J Walker, H Meier
Smart Materials, Adaptive Structures and Intelligent Systems 56031, V001T01A006, 2013
|Additive manufacturing of Nitinol shape memory alloys to overcome challenges in conventional Nitinol fabrication|
J Walker, MT Andani, C Haberland, M Elahinia
ASME International Mechanical Engineering Congress and Exposition 46438 …, 2014
|An investigation of effective process parameters on phase transformation temperature of nitinol manufactured by selective laser melting|
MT Andani, C Haberland, J Walker, M Elahinia
Smart Materials, Adaptive Structures and Intelligent Systems 46148, V001T01A026, 2014
|Microwave dielectric properties of zirconia fabricated using NanoParticle Jetting™|
Y Oh, V Bharambe, B Mummareddy, J Martin, J McKnight, MA Abraham, ...
Additive Manufacturing 27, 586-594, 2019
|3D printed smart molds for sand casting|
J Walker, E Harris, C Lynagh, A Beck, R Lonardo, B Vuksanovich, J Thiel, ...
International Journal of Metalcasting 12 (4), 785-796, 2018
|Site-specific material properties and the additive manufacturing of nitinol musculoskeletal implants|
M Elahinia, NS Moghaddam, MT Andani, R Rahmanian, J Walker, ...
Tissue Engineering Part A 20, S120-S121, 2014
|An investigation of process parameters on selective laser melting of nitinol|
J Walker, M Elahinia, C Haberland
Smart Materials, Adaptive Structures and Intelligent Systems 56031, V001T01A007, 2013
|Modification of poly (propylene fumarate)–bioglass composites with peptide conjugates to enhance bioactivity|
Y Xu, D Luong, JM Walker, D Dean, ML Becker
Biomacromolecules 18 (10), 3168-3177, 2017
|Real-time process monitoring of core shifts during metal casting with wireless sensing and 3D sand printing|
JM Walker, A Prokop, C Lynagh, B Vuksanovich, B Conner, K Rogers, ...
Additive Manufacturing 27, 54-60, 2019
|Additive manufacturing towards the realization of porous and stiffness-tailored NiTi implants|
University of Toledo, 2014
|Digital manufacturing of pathologically-complex 3D printed antennas|
K Johnson, M Zemba, BP Conner, J Walker, E Burden, K Rogers, ...
IEEE Access 7, 39378-39389, 2019