2011
DOI: 10.1016/j.matlet.2010.11.015
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Homogeneous corrosion of high pressure torsion treated Mg–Zn–Ca alloy in simulated body fluid

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Cited by 134 publications
(61 citation statements)
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“…An improved corrosion resistance in an AZ31 alloy after processing by ECAP was also reported in NaCl and phosphate-buffer solution-PBS and this was attributed to the early formation of a protective layer of corrosion products [28]. It was also reported that HPT processing improved the corrosion resistance of a Mg-2 wt.% Zn-0.24 wt.% Ca alloy [10]. A recent report [29] showed that grain refinement can lead to a higher corrosion rate in materials in which the corrosion current is high, >10 -5 A.cm 2 , but the presence of grain boundaries may help in developing a passive layer in materials with a low corrosion current, <10 -5 A.cm 2 , and this suggests that grain refinement may improve the corrosion resistance.…”
Section: Introductionmentioning
confidence: 60%
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“…An improved corrosion resistance in an AZ31 alloy after processing by ECAP was also reported in NaCl and phosphate-buffer solution-PBS and this was attributed to the early formation of a protective layer of corrosion products [28]. It was also reported that HPT processing improved the corrosion resistance of a Mg-2 wt.% Zn-0.24 wt.% Ca alloy [10]. A recent report [29] showed that grain refinement can lead to a higher corrosion rate in materials in which the corrosion current is high, >10 -5 A.cm 2 , but the presence of grain boundaries may help in developing a passive layer in materials with a low corrosion current, <10 -5 A.cm 2 , and this suggests that grain refinement may improve the corrosion resistance.…”
Section: Introductionmentioning
confidence: 60%
“…Thus, samples cut parallel to the extrusion direction exhibit lower corrosion rates than samples cut perpendicular [6] and it was reported also that the corrosion rate decreases with an increase in the intensity of basal planes parallel to the surface [7]. Decreasing the grain size [8,9] and homogenizing the second phase particle distribution [10] also reduces the corrosion rate. Among the thermo-mechanical processing techniques, severe plastic deformation (SPD) processes [11] are gaining significant attention because of their potential for producing fully-dense bulk samples with exceptionally small grain sizes.…”
Section: Introductionmentioning
confidence: 98%
“…Many papers have reported the formation of ultrafine grained structures in pure magnesium [3][4][5][6] and AZ31 [7][8][9][10][11] , AZ61 12 , AZ80 13 , AZ91 [14][15][16] , ZK60 [17][18][19] , Mg-Zn-Y 20,21 , Mg-Gd-Y-Zr 22,23 , Mg-Zn-Ca [24][25][26][27] and Mg-Dy-Al-Zn-Zr 28 alloys. The processed alloys exhibit improved strength but also some papers report superplastic behaviour 16,19,22,29,30 , improved hydrogen storage properties 3,[31][32][33][34][35] and improved corrosion resistance 24,27,36 . Formation of ultrafine grained structures and improved strength are also observed in other metallic materials processed by HPT.…”
Section: Introductionmentioning
confidence: 99%
“…The ZE41A magnesium alloy with low rare-earth (RE) content is suitable to act a biodegradable material since some RE elements are proven to be tolerated by the human body [14,16]. Our previous work showed that the ZE41A alloy after multi-pass ECAP consists of UFG Mg matrix and homogeneously dispersed second-phase particles, which contribute to better mechanical properties at room temperature and the higher corrosion resistance in NaCl solutions [17,18]. Thus, the aim of this paper is to study the biodegradation behavior of the ECAPed ZE41A alloy in a simulated body fluid, and then tailor the biodegradation rate of the UFG magnesium alloy containing rare-earth elements.…”
Section: Introductionmentioning
confidence: 99%