Title of article
A three-dimensional model describing stress-temperature induced solid phase transformations: solution algorithm and boundary value problems
Author/Authors
Ferdinando Auricchio، نويسنده , , Lorenza Petrini، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2004
Pages
30
From page
807
To page
836
Abstract
An always increasing knowledge on material properties as well as a progressively more sophisticated
production technology make shape memory alloys (SMA) extremely interesting for the industrial world.
At the same time, SMA devices are typically characterized by complex multi-axial stress states as
well as non-homogeneous and non-isothermal conditions both in space and time.
This aspect suggests the finite element method as a useful tool to help and improve application design
and realization. With this aim, we focus on a three-dimensional macroscopic thermo-mechanical model
able to reproduce the most significant SMA features (Int. J. Numer. Methods Eng. 2002; 55:1255–
1264), proposing a simple modification of such a model. However, the suggested modification allows
the development of a time-discrete solution algorithm, which is more effective and robust than the
one previously discussed in the literature.
We verify the computational tool ability to simulate realistic mechanical boundary value problems
with prescribed temperature dependence, studying three SMA applications: a spring actuator, a selfexpanding
stent, a coupling device for vacuum tightness. The effectiveness of the model to solve
thermo-mechanical coupled problems will be discussed in a forthcoming work
Keywords
numerical implementation , springactuator , boundary value problems , vacuum tight flange , self-expanding stent , Shape memory alloys , stress-temperature induced solid phase transformation , 3Dconstitutive model
Journal title
International Journal for Numerical Methods in Engineering
Serial Year
2004
Journal title
International Journal for Numerical Methods in Engineering
Record number
425224
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