Sage Journals: Discover world-class research

Abstract

The objective of this research is to demonstrate the effect of Active Constrained Layer segmentation on the enhancement of low frequency vibrations damping in flexible beams. The Active Constrained Layer Damping treatment, under consideration, consists of a viscoelastic layer sandwiched between two piezoelectric layers. The shear deformation of the viscoelastic layer causes loss of energy and thus the damping of vibration.

This paper focuses on the effects of constraining layer segmentation. Experimental results obtained for slender beams partially treated with segmented and unsegmented Active Constrained Layer Damping treatments are presented. Tested specimens have low natural frequencies typical. e.g., for long span floors, moment frames, or flexible robotic manipulator arms. The performance of segmented and unsegmented treatments, as well as active and passive treatments are compared. The presented results demonstrate that significant improvement in Active Constrained Layer Damping treatment performance can be achieved by an appropriate segmentation of the constraining layer.

Get full access to this article

View all access options for this article.

References

Adams, D. S. 1996. "Efficient Finite Element Modeling of Thin-Walled Structures with Constrained Viscoelastic Layer Damping", AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics and Materials Conference and Exhibit, 37th, Salt Lake City, UT, April 15-17, pp. 2079-2085.

Azvine, B. , G. R. Tomlinson and R. J. Wynne . 1995. "Use of Active Constrained-Layer Damping for Controlling Resonant Vibration", Smart Materials and Structures, 4(1):1-6.

Baz, A. and J. Ro. 1993. "Partial Treatment of Flexible Beams with Active Constrained Layer Damping", Conference of Engineering Science Society, ASME-AMD, Charlottesville, VA: 167:61-80.

Huang, S. C. , D. J. Inman and E. M. Austin . 1996. "Some Design Considerations for Active and Passive Constrained Layer Damping Treatments", Smart Materials and Structures, 5(3):301-313.

Kapadia, R. and G. Kawiecki . 1996. "Low Frequency Vibration Attenuation Using Segmented Active Constrained Layer Damping Treatments", Proceedings of the First European Conference on Structural Control, Barcelona, Spain, May 29-31.

Liao, W. H. and K. W. Wang . 1995. "On Active-Passive Hybrid Vibration Control Actions of Structures with Active Constrained Layer Treatments", DE Vol. 84-3, Design Engineering Technical Conferences Volume 3-Part C ASME.

Mead, D. J. and S. Markus . 1969. "The Forced Vibration of a Three-Layer, Damped Sandwich Beam with Arbitrary Boundary Conditions", Journal of Sound and Vibration, 10(2):163-175.

Nashif, A. D. , D. I. G. Jones and J. P. Henderson . 1985. Vibration Damping. A Wiley-Interscience Publication, John Wiley & Sons.

Parfitt, G. G. and D. Lambeth. 1960. "The Damping of Structural Vibration", A.R.C.C.P. No. 596.

10.

Parfitt, G. G. 1962. "The Effect of Cuts in Damping Tapes", Proceedings of the Fourth International Congress on Acoustics, Copenhagen, Denmark, August 21-28, pp. 21-24.

11.

Plunkett, R. and C. T. Lee . 1970. "Length Optimization for Constrained Viscoelastic Layer Damping", The Journal of the Acoustical Society of America, (Part 2), 48(1):150-151.

12.

Rongong, G. R. and G. R. Tomlinson . 1996. "Suppression of Ring Vibration Modes of High Nodal Diameter Using Constrained Layer Damping Methods", Smart Materials and Structures, 5(5): 672-684.

13.

Shen, I. Y. 1994. "Bending-Vibration Control of Composite and Isotropic Plates through Intelligent Constrained-Layer Treatments", Smart Materials and Structures, 4(1):59-70.

14.

Smith, C. B. and N. M. Wereley . 1996. "Active-Passive Constrained Layer Damping of Composite Rotating Flexbeams", AIAA/ASME/AHS Adaptive Structures Forum, Salt Lake City, UT: April 18-19, pp. 207-216.

15.

Smith, C. B. and N. M. Wereley . 1996. "Transient Analysis for Damping Identification in Rotating Composite Beams with Integral Damping Layers", Smart Materials and Structures, 5(5): 540-550.

16.

Tasker, F. A. and I. Chopra . 1990. "Assessment of Transient Analysis Techniques for Rotor Stability Testing", Journal of the American Helicopter Society, 35(10):39-50.

17.

Van Nostrand, W. C. and D. J. Inman . 1994. "Finite Element Model for Active Constrained Layer Damping", Proceedings of the 31st Annual Technical Meeting of the Society for Engineering Science, October 1-12, Texas A&M University, College Station, TX, SPIE Vol. 2427, Active Materials and Smart Structures.

18.

Wang, K. W. and W. H. Liao . 1996. "A New Active Constrained Layer Configuration with Enhanced Boundary Actions", Smart Materials and Structures, 5(5):638-648.

Experimental Evaluation of Segmented Active Constrained Layer Damping Treatments

Abstract

Get full access to this article

References