Improvement of corrosion resistance and mechanical properties of a magnesium alloy using screw rolling

Abstract

An extruded Mg alloy was subjected to the screw rolling (SR) at different temperatures. The microstructure, corrosion behavior, and mechanical properties were analyzed. Electrochemical and immersion techniques were applied for corrosion behavior analysis. Moreover, scanning Kelvin probe force microscopy (SKPFM) was utilized to measure the surface Volta-potential. It was found that an increase in SR temperature decreased the strength by increasing the grain size and reducing the intermetallics. However, the corrosion rate was decreased from SR at 220–300 °C due to the dissolution of the intermetallics into the matrix and increased for the sample SRed at 340 °C due to significant grain growth.

Mechanochemical study of a novel Magnesium alloy with trace addition of Gd, Nd, Ce, and La rare-earth and Sr elementsadministrator2025-02-17T00:45:09+03:30

Mechanochemical study of a novel Magnesium alloy with trace addition of Gd, Nd, Ce, and La rare-earth and Sr elements

On the synthesis and sintering behavior of a novel Mg-Ca alloy, Part I: Mechanical alloyingadministrator2024-12-17T01:23:49+03:30

On the synthesis and sintering behavior of a novel Mg-Ca alloy, Part I: Mechanical alloying

On the synthesis and sintering behavior of a novel Mg-Ca alloy, Part II: Spark plasma sinteringadministrator2024-12-16T22:43:48+03:30

On the synthesis and sintering behavior of a novel Mg-Ca alloy, Part II: Spark plasma sintering