Analytical prediction of the phase transformation onset zone at a crack tip of a shape memory alloy exhibiting asymmetry between tension and compression

Lexcellent, Christian; Laydi, Mohamed Rachid; Taillebot, Virginie

doi:10.1007/s10704-010-9577-3

Cited by 30 publications

(8 citation statements)

References 16 publications

(15 reference statements)

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“…As expected, the shape of the transformation region is similar to the plastic zone in common metals, as a direct consequence of the application of plasticity concept and common yield criteria to define the phase transformation conditions in SMAs. However, it is worth noting that the adopted constitutive model does not take into account the asymmetries between tension and compression in SMAs and slightly different contours could be observed, depending on the degree of asymmetry, triaxiality and grain texture as demonstrated in previous works . Figure illustrates the results of isothermal mechanical tests of two SEC specimens in terms of applied load, P , and applied mode I SIF, K I *, as a function of the crosshead displacement, d , of the testing machine.…”

Section: Resultsmentioning

confidence: 96%

“…However, it is worth noting that the adopted constitutive model does not take into account the asymmetries between tension and compression in SMAs and slightly different contours could be observed, depending on the degree of asymmetry, triaxiality and grain texture as demonstrated in previous works. 7,27,28 Figure 8 illustrates the results of isothermal mechanical tests of two SEC specimens in terms of applied load, P, and applied mode I SIF, K I *, as a function of the crosshead displacement, d, of the testing machine. In particular, Fig.…”

Section: R E S U L T S a N D Discussion Smentioning

confidence: 99%

“…As a consequence, a direct transferability of the results to the engineering community is not possible, and proper design criteria that are consistent with the unique properties of NiTi SMAs should be developed. To this aim, some analytical models have been proposed recently, [23][24][25][26][27][28][29][30][31][32][33][34] which are mainly based on modified LEFM concepts.…”

Section: Introductionmentioning

confidence: 99%

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Crack tip stress distribution and stress intensity factor in shape memory alloys

Maletta

Sgambitterra

Furgiuele

2013

Fatigue Fract Eng Mat Struct

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The crack tip stress‐induced martensitic transformation and the resulting stress distribution in a nickel–titanium (NiTi)‐based shape memory alloy have been analysed. In particular, the effects of temperature, within the stress‐induced transformation regime, in single edge crack specimens have been studied by a recent analytical model, finite element simulations and experimental measurements. The results of the analytical model have been compared with those obtained from finite element simulations, carried out by using a special constitutive model for shape memory alloys, and good agreements have been observed. Furthermore, full field numerical results have been used to better understand the evolution of the volume fraction of martensite in the crack tip region. Finally, experimental measurements have been carried out, by using single edge crack specimens obtained from commercially available NiTi sheets by electro‐discharge machining. The results have been analysed by linear elastic fracture mechanics theory, and the analytical model has been used to calculate modified stress‐intensity factors for shape memory alloys. A slightly increase of the critical stress‐intensity factor has been observed with increasing the testing temperature, and this result is in accordance with the model calculations, which indicate a toughening effect, i.e. a reduction of the crack tip stress intensity factor.

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Section: Resultsmentioning

confidence: 96%

Section: R E S U L T S a N D Discussion Smentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Crack tip stress distribution and stress intensity factor in shape memory alloys

Maletta

Sgambitterra

Furgiuele

2013

Fatigue Fract Eng Mat Struct

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“…Analytical prediction of the phase transformation onset zones was performed on a crack tip without curvature for the three modes (I, II and III) and mixed mode I?II [5]. The two cases of plane stress (CP) and plane strain (DP) were investigated.…”

Section: Introductionmentioning

confidence: 99%

Phase Transformation Surfaces Analysis for SMA Around a Crack Tip with Curvature

Laydi¹,

Lexcellent²

2015

Shap. Mem. Superelasticity

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Under loading, for a shape memory alloy, the stress concentration around the crack tip, inside a plate, is a serious fracture problem. The tip shape constitutes an important data. In a recent paper (Lexcellent et al. in Int J Fract 169:1-13, 2011), the determination of phase transformation surfaces around a crack tip without curvature was investigated. For crack with curvature, the approximate stress field solution proposed by Creager and Paris is used (Int J Fract 3:247-252, 1967). The knowledge of phase transformation surfaces dimensions and shapes can help us to define a fracture criterion. The study is focussed on mode I because this opening mode is the most dangerous for the structure. Also, comparisons between experiments and computing can be made. Qualitative agreement was obtained.

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“…Furthermore, several numerical studies have been carried out, by using standard finite element codes and plasticity concepts [13][14][15] as well as by special constitutive models for SMAs [16][17]. Finally, some analytical models have been proposed recently [18][19][20][21][22][23][24][25][26][27], which are mainly based on modified linear elastic fracture mechanics concepts. In the present paper a review of the research activities on fracture mechanics of NiTi alloys, carried out at the Department of Mechanical Engineering at University of Calabria (Italy), is illustrated.…”

Section: Introductionmentioning

confidence: 99%

Fracture mechanics of pseudoelastic NiTi alloys: review of the research activities carried out at University of Calabria

Maletta

Furgiuele

Sgambitterra

2012

Frattura Ed Integrità Strutturale

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This paper reports a brief review of the research activities on fracture mechanics of nickel-titanium based shape memory alloys carried out at University of Calabria. In fact, this class of metallic alloys show a unusual fracture response due to the reversible stress-induced and thermally phase transition mechanisms occurring in the crack tip region as a consequence of the highly localized stresses. The paper illustrates the main results concerning numerical, analytical and experimental research activities carried out by using commercial NiTi based pseudoelastic alloys. Furthermore, the effect of several thermo-mechanical loading conditions on the fracture properties of NiTi alloys are illustrated.

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Analytical prediction of the phase transformation onset zone at a crack tip of a shape memory alloy exhibiting asymmetry between tension and compression

Cited by 30 publications

References 16 publications

Crack tip stress distribution and stress intensity factor in shape memory alloys

Crack tip stress distribution and stress intensity factor in shape memory alloys

Phase Transformation Surfaces Analysis for SMA Around a Crack Tip with Curvature

Fracture mechanics of pseudoelastic NiTi alloys: review of the research activities carried out at University of Calabria

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