Deformations and stresses in hybrid shape memory alloy plates subjected to low-velocity impact are considered. Shape memory alloy fibers embedded in resin sleeves and located at the middle plane of the plate can be an effective tool for the reduction of deformations and the control of damage. The desirable effect can be achieved by activating the fibers, i.e., through a constrained reverse transformation. In the examples considered in the paper, transverse deflections were reduced to approximately one-third of the deflections of identical plates without shape memory alloy fibers. Although the benefits to the stresses were less impressive, they were still significant. The accuracy of the closed-form solution presented in the paper is limited only by a number of terms in the series that represent deformations. Numerical analysis reflected a good convergence of the solution.
[1]
S. Abrate.
Impact on Laminated Composite Materials
,
1991
.
[2]
Serge Abrate,et al.
Impact on Laminated Composites: Recent Advances
,
1994
.
[3]
Mn Nahas,et al.
Survey of Failure and Post-Failure Theories of Laminated Fiber-Renforced Composites
,
1986
.
[4]
J. Ro,et al.
Thermo-dynamic characteristics of nitinol-reinforced composite beams
,
1992
.
[5]
C. Liang,et al.
Structural modification of simply-supported laminated plates using embedded shape memory alloy fibers
,
1991
.
[6]
A. Baz,et al.
Torsional stiffness of NITINOL-reinforced composite drive shafts
,
1993
.
[7]
Victor Birman,et al.
Analytical models of sandwich plates with piezoelectric strip-stiffeners
,
1994
.