2004
DOI: 10.1016/s0257-8972(03)00877-6
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Fatigue properties of Keronite® coatings on a magnesium alloy

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Cited by 175 publications
(97 citation statements)
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“…The micro-discharges, in fact, cause local melting of the surface, inducing pores and microcracks, as well as tensile stresses, during the subsequent rapid solidification [24]. Similar results were also found by Yerokhin et al [21] who reported a fatigue strength reduction in the range of 3-10% on PEO-treated magnesium alloy rods (Mg-Al 2-Zn 1-Mn 0.2) with respect to the bare material, while A. Nemcova et al [23] showed a 40-50% reduction in fatigue strength of PEO treated wrought AZ61 Mg alloys with respect to the untreated alloy.…”
Section: Fatigue Testssupporting
confidence: 84%
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“…The micro-discharges, in fact, cause local melting of the surface, inducing pores and microcracks, as well as tensile stresses, during the subsequent rapid solidification [24]. Similar results were also found by Yerokhin et al [21] who reported a fatigue strength reduction in the range of 3-10% on PEO-treated magnesium alloy rods (Mg-Al 2-Zn 1-Mn 0.2) with respect to the bare material, while A. Nemcova et al [23] showed a 40-50% reduction in fatigue strength of PEO treated wrought AZ61 Mg alloys with respect to the untreated alloy.…”
Section: Fatigue Testssupporting
confidence: 84%
“…However, when components have to be used in humid or corrosive environments and/or improved wear resistance is needed, also Mg-RE alloys can be inadequate and protective surface treatments, such as conversion coating or electroplating/electroless plating are necessary [21][22][23].…”
Section: Introductionmentioning
confidence: 99%
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“…Reducing the weight of vehicles will decrease the fuel consumption which will also lower the emission of greenhouse gases such as CO 2 [1][2][3][4][5]. As a result of their dissolubility in chloride containing aqueous solutions, magnesium is a potential biodegradable implant material and unlike the titanium based implant materials, biodegradable magnesium alloys do not require a second surgical operation for the removal process and are mechanically more compatible with natural bone by virtue of their similar elastic modulus values (Mg alloys: 40-45 GPa, bone: 10-40 GPa) [6,7].…”
Section: Introductionmentioning
confidence: 99%
“…Consequently releasing of magnesium ions during the dissolution process is beneficial for the healing process of bones [8]. However poor corrosion and wear resistance of magnesium and its alloys limit their application areas [3][4][5][9][10][11]. Therefore to improve the properties of magnesium addition of alloying elements is highly required [12,13].…”
Section: Introductionmentioning
confidence: 99%