Effect of Cold Rolling Process on the Microstructure and Corrosion Behaviors of 316L Stainless Steel in Simulated Body Fluids

Abstract: This present paper is aims to study the influence of cold rolling process on the microstructure and corrosion behaviors of 316L stainless steel using potentiodynamics polarization testing techniques. The steel with initial thickness of 2.0 mm was unidirectional cold rolled to 10%, 30% and 50% reduction in thickness. The corrosion behaviors of the cold rolled steels were evaluated in phosphate buffered saline (PBS) as their simulated body fluids environment. The pH and temperature of the solution was maintained… Show more

“…Moreover, at all immersion times, K5 showed more noble OCP than others [33], which suggests that a more protective passive layer is formed on the surface SS 316 L showing less corrosion rate [31]. The passive film could slow down the dissolution of steel due to the stability of the passive film [35,36]. This result fully agrees with corrosion rates obtained by the potentiodynamic polarization tests described in the following section.…”

Effect of KOH concentration on corrosion behavior and surface morphology of stainless steel 316L for HHO generator application

“…Moreover, at all immersion times, K5 showed more noble OCP than others [33], which suggests that a more protective passive layer is formed on the surface SS 316 L showing less corrosion rate [31]. The passive film could slow down the dissolution of steel due to the stability of the passive film [35,36]. This result fully agrees with corrosion rates obtained by the potentiodynamic polarization tests described in the following section.…”

Effect of KOH concentration on corrosion behavior and surface morphology of stainless steel 316L for HHO generator application

Effect of Cold Rolling and Subsequent Annealing on the Corrosion Resistance of Ag-Containing CD4MCu Duplex Stainless Steels

Insights into the influence of cold rolling and accelerated isothermal aging on microstructure evolution, corrosion performance, σ precipitation and its kinetics in a low molybdenum Fe-21Cr-5Mn-1.5Ni alloy