论文信息 - 3D finite element analysis of indentation recovery due to the shape memory effect

3D finite element analysis of indentation recovery due to the shape memory effect

The potential use of Shape Memory Alloys (SMAs) as micro-actuators promotes study of the behaviors of these materials at small length scales. The recovery of micro-indentations due to the shape memory effect has recently become an area of particular interest. Experimental observation indicates promising microactuation ability in SMAs subject to indentation. In order to better understand the mechanisms underlying this phenomenon, 3- D Finite Element Analysis incorporating a new SMA transformation-plastic yield constitutive model is used to simulate a unique experimental indentation procedure. This process involves the indentation of an SMA material and the planarization of the material surface to remove all visible traces of the indent region; upon subsequent heating, a protrusion (exdent) is created in the indented zone. Key results of an analysis that simulates this experimental procedure are discussed, along with possibilities for future work.

[1] Wendy C. Crone,et al. Shape memory effect in nanoindentation of nickel–titanium thin films , 2003 .

[2] Yang-Tse Cheng,et al. Two-way indent depth recovery in a NiTi shape memory alloy , 2006 .

[3] Martin Kružík,et al. Spherical Load Indentation in Submicron NiTiCu Shape Memory Thin Films , 2004 .

[4] Yang-Tse Cheng,et al. Shape memory surfaces , 2006 .

[5] Yang-Tse Cheng,et al. Microscopic superelastic behavior of a nickel-titanium alloy under complex loading conditions , 2003 .

[6] Xi-Qiao Feng,et al. Analysis of spherical indentation of superelastic shape memory alloys , 2007 .

[7] Yang-Tse Cheng,et al. Understanding indentation-induced two-way shape memory effect , 2007 .

[8] D. Lagoudas,et al. Constitutive modeling and structural analysis considering simultaneous phase transformation and plastic yield in shape memory alloys , 2009 .

[9] Yang-Tse Cheng,et al. Surface Form Memory in NiTi: Energy Density of Constrained Recovery During Indent Replication , 2009, Journal of Materials Engineering and Performance.

[10] Yang-Tse Cheng,et al. Indentation-induced two-way shape memory surfaces , 2009 .

[11] Yang-Tse Cheng,et al. Finite element modeling of indentation-induced superelastic effect using a three-dimensional constitutive model for shape memory materials with plasticity , 2007 .

[12] Rong Liu,et al. Indentation behavior of pseudoelastic TiNi alloy , 1999 .