Pseudoelastic SMA Spring Elements for Passive Vibration Isolation: Part II – Simulations and Experimental Correlations

Author:

Lagoudas Dimitris C.1,Khan Mughees M.1,Mayes John J.2,Henderson Benjamin K.3

Affiliation:

1. Department of Aerospace Engineering, Texas A&M University, College Station, TX 77843, USA

2. V-22 Structure and Development, Airframe Systems, Bell Helicopter, Textron, Fort Worth, TX 76101, USA

3. Air Force Research Laboratory/VSSV, Kirtland AFB, NM 87117, USA

Abstract

In Part II of this two-part study, system simulations and experimental correlations of a Shape Memory Alloy (SMA) based vibration isolation device (briefly described in Part I) has been presented. This device consists of layers of preconstrained SMA tubes undergoing pseudoelastic transformations under transverse dynamical loading. In Part II, detailed description of the prototype vibration isolation device, its experimental setup, and actual experimental test results are presented. An extensive parametric study has been conducted on a nonlinear hysteretic dynamical system, representing this vibration isolation device utilizing a physically based simplified SMA model and a Preisach model (an empirical model based on system identification) developed in Part I. Both the physically based simplified SMA model and the modified Preisach model have been utilized to perform experimental correlations with the results obtained from actual testing of the device. Based on the investigations, it has been shown that variable damping and tunable isolation response are major benefits of SMA pseudoelasticity. Correlation of numerical simulations and experimental results has shown that large amplitude displacements causing phase transformations of SMA components present in such a device are necessary for effective reduction in the transmissibility of such dynamical systems. It has also been shown that SMA-based devices can overcome performance trade-offs inherent in typical softening spring-damper vibration isolation systems. In terms of numerically predicting the experimental results, it has been shown that the Preisach model gave relatively accurate results due to better modeling of the actual SMA tube behavior. However, for a generic parametric study, the physically based simplified SMA model has been found to be more useful as it is motivated from the constitutive response of SMAs and hence, could easily incorporate different changes in system conditions.

Publisher

SAGE Publications

Subject

Mechanical Engineering,General Materials Science

Reference5 articles.

1. Bernardini, D. and Vestroni, F. 2002. “Non-isothermal Oscillations of Pseudoelastic Devices” , International Journal of Non-Linear Mechanics, Submitted for publication.

2. Analysis of the behavior of a Shape Memory Alloy beam under dynamical loading

3. Dynamics of a Mechanical System with a Shape Memory Alloy Bar

4. Newmark, N.M. 1959. “A Method of Computation for Structural Dynamics” , Journal of Engineering Mechanics Division, ASCE 85, 67–94 .

5. Otsuka, K. and Shimizu, K. 1986. “Pseudoelasticity and Shape Memory Effects in Alloys” , International Metals Review, 31(3): 93–114 .

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