Effects of Sr on the glass-forming ability and corrosion behaviour of Mg–Zn–Ca–Cu bulk metallic glass

Abstract: Mg-based bulk metallic glass (BMG) is a biodegradable metal with significant potential advantages as an implant material. To investigate the effect of Sr addition on the glass-forming ability (GFA) and its effect on the mechanical properties and corrosion behaviours of Mg-Zn-Ca-Cu BMG, a series of Mg 66-x Zn 29.5 Ca 4 Cu 0.5 Sr x (x = 0, 0.3, 0.6, and 0.9 at.-%) were synthesised and investigated in this study. Microstructural characterisation, GFA and corrosion resistance measurements were carried out by XRD, … Show more

“…The resistance of CPE can be expressed by the following equation [ 24 ] : $$$Z=\frac{1}{{Y}_{0}{(j\omega )}^{n}},$$$where Y 0 is the frequency independent, j is the imaginary number, ω is the radial frequency and n is the dispersion coefficient related to the surface homogeneity of solid electrodes. According to the work of other researchers, [ 25,26 ] the value of Y 0 can be regarded as the characterization parameter of the passivation film thickness of MSS. From the results of the R ct and Y 0 , the value of R ct becomes increased with the T&P treatment temperature increase from 200 to 400°C and the value of Y 0 decreased, simultaneously.…”

Corrosion resistance improvement in 6Cr13 martensitic stainless steel via quenching‐tempering and partitioning

“…The resistance of CPE can be expressed by the following equation [ 24 ] : $$$Z=\frac{1}{{Y}_{0}{(j\omega )}^{n}},$$$where Y 0 is the frequency independent, j is the imaginary number, ω is the radial frequency and n is the dispersion coefficient related to the surface homogeneity of solid electrodes. According to the work of other researchers, [ 25,26 ] the value of Y 0 can be regarded as the characterization parameter of the passivation film thickness of MSS. From the results of the R ct and Y 0 , the value of R ct becomes increased with the T&P treatment temperature increase from 200 to 400°C and the value of Y 0 decreased, simultaneously.…”

Corrosion resistance improvement in 6Cr13 martensitic stainless steel via quenching‐tempering and partitioning