Hostname: page-component-77c89778f8-7drxs Total loading time: 0 Render date: 2024-07-19T10:31:25.060Z Has data issue: false hasContentIssue false
  • English
  • Français

Biomimetic Sensors and Actuators

Published online by Cambridge University Press:  21 February 2011

Kelley Markowski  and
Robert E. Newnham
Kelley Markowski
Affiliation:
Kelley Markowski The Pennsylvania State University, 135 Materials Research Laboratory. University Park, PA 16802
Robert E. Newnham
Affiliation:
Robert E. Newnhamn The Pennsylvania State University, 251 Materials Research Laboratory, University Park, PA 16802
Get access

Abstract

Several types of biornimetic structures suitable for underseas systems are described. Composite sensors and actuators are modeled after coral, fish, sharks and bats.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 255: Symposium Z – Hierarchically Structured Materials , 1991 , 255
Copyright
Copyright © Materials Research Society 1992

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

1. Newnharr, R.E., Ruschau, G.R., J. Am. Ceram. Soc. 74 (3) 463480 (1991).Google Scholar
2. International Business Machines Corporation Department of Arts and Sciences, Leonardo Da Vinci (New York).Google Scholar
3. Vincent, J. F., J. of Intell. Mater. Syst, and Struct. 1, 141146 (1990).Google Scholar
4. Roy, R., Adv. Mater. 3 (9), 448451 (1991).Google Scholar
5. White, R.A., Weber, J.N., White, E.W., Science 176, 922924 (1972).Google Scholar
6. Newnham, R.E., Skinner, D.P., Cross, L.E., Mat. Res. Bull. 13, 220536 (1978).Google Scholar
7. Roy, D., Nature 247, 220225 (1974).Google Scholar
8. Pool, R., Research News Nov. 1990, 629.Google Scholar
9. Weber, J. W., Greer, R., Voight, B., White, E. W, Roy, R., J. Ultrastructure Res. 23, 355366 (1969).Google Scholar
10. Bennan, A., Addadi, L., Kvick, A., Leiserowitz, L., Nelson, M., Weiner, S., Science 250 664667 (1990).Google Scholar
11. Jennings, J.S. and Macmillan, N.H., J. Materials Sci. 21 517 (1986).Google Scholar
12. Calvert, P. in Biomnimetic Materials, edited by Ahmad, I., Crowson, A., Rogers, C. and Aizawa, M. (U.S.-Japan Workshop on Smart/Intelligent Materials and Systems. Honolulu, Hawaii 1990) pp. 162173.Google Scholar
13. Moulson, A.J. and Herbert, J.M., Electroceramics Materials Properties Applications, 1st ed. (Chapman and Hall, UK, 1990) p. 3 1 1.Google Scholar
14. Marshall, N.B., Developments in Deep Sea Biology, I st ed. (Blanford Press Ltd., UK, 1979). p. 413422.Google Scholar
15. Bond, C.E., Biology of Fishes 1st ed. (Saunders College Publishing, Philadelphia, PA 1979), p. 334.Google Scholar
16. Xu, Q.C., Belsick, J., Yoshikawa, S., Srinivarasan, T.T., and Newnhaun, R.E., “Piezoelectric Composites with High Sensitivity and High Capacitance for Use at High Pressures,” Proc. IEEE, in press.Google Scholar
17. Newnham, R.E., “Tunable Transducers: Nonlinear Phenomena in Electroceramics” (National Institute of Standards and Technology Special Publication 804, Chemistry of Electronic Ceramic Materials, Proceedings of the International Conference, Jackson, Wyoming August 17–22, 1990) pp. 3952.Google Scholar
18. Suga, N.. Scientific Atnerican 262 6068 (1990).CrossRefGoogle Scholar
19. Newnham, R.E., Xu, Q.C., Kumar, S. and Cross, L.E., in Smart Materials, Structures and Mathematical Issues, edited by Rogers, C.A. (U.S. Army Research Office Workshop on Smart Materials, Structures and Mathematical Issues, Blacksburg, Virginia 1988) pp. 147155.Google Scholar
20. Wainwright, S.A., Vosburgh, F. and Hebrank, J. H., Science 202 747749 (1978).Google Scholar