TY - GEN
T1 - Alternative smart materials
AU - James, Richard D.
AU - Wuttig, Manfred
PY - 1996
Y1 - 1996
N2 - Presently, there are three types of smart materials available, ferroelectric-magnetic and -elastic materials. Prototypes of the three are PZT ceramics, Terfenol-D and Nitinol. Their advantages and disadvantages are well known: Ferroelectric materials are characterized by a large elastic constant and moderate actuation strain, and their dynamical response is excellent. Some antiferroelectrics feature a larger actuation strain. Terfenol-D displays similar mechanical characteristics but its dynamical response is limited by eddy currents. This limitation can be overcome in composites. Nitinol and similar shape memory alloys feature a large elastic constant and actuation strain but suffer from inferior dynamical response which can be overcome in small sections. The ideal actuation material would display a large actuation energy and superior dynamical response. Shape memory type materials display the largest actuation strains known. It is thus natural to inquire into the possibility actuating these alloys with a magnetic field to improve their dynamical performance.
AB - Presently, there are three types of smart materials available, ferroelectric-magnetic and -elastic materials. Prototypes of the three are PZT ceramics, Terfenol-D and Nitinol. Their advantages and disadvantages are well known: Ferroelectric materials are characterized by a large elastic constant and moderate actuation strain, and their dynamical response is excellent. Some antiferroelectrics feature a larger actuation strain. Terfenol-D displays similar mechanical characteristics but its dynamical response is limited by eddy currents. This limitation can be overcome in composites. Nitinol and similar shape memory alloys feature a large elastic constant and actuation strain but suffer from inferior dynamical response which can be overcome in small sections. The ideal actuation material would display a large actuation energy and superior dynamical response. Shape memory type materials display the largest actuation strains known. It is thus natural to inquire into the possibility actuating these alloys with a magnetic field to improve their dynamical performance.
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M3 - Conference contribution
AN - SCOPUS:0029768288
SN - 0819420905
SN - 9780819420909
T3 - Proceedings of SPIE - The International Society for Optical Engineering
SP - 420
EP - 426
BT - Proceedings of SPIE - The International Society for Optical Engineering
A2 - Varadan, Vasundara V.
A2 - Chandra, Jagdish
T2 - Smart Structures and Materials 1996: Mathematics and Control in Smart Structures
Y2 - 26 February 1996 through 29 February 1996
ER -