The influence of static stress on the corrosion behavior of 316L stainless steel in Ringer's solution

## Abstract Experimental tests demonstrate that there is a sharp drop in resistance to fatigue fracture when the grain size is increased from 75 to 150 μm. This is at least a partial explanation for fatigue fractures of the stems of total hip‐joint prostheses reported in the literature. It is also

## Abstract Hyperduplex UNS S32707 is a newly developed austenitic–ferritic stainless steel. The steel contains about 27%Cr, 7%Ni, 4.5%Mo, and 0.4%N, which results in a pitting resistance equivalent factor (PRE) equal to 49. In this study, the pitting corrosion resistance of this new grade of stain

The electrochemical behaviour of 316 stainless steel was studied in nearly neutral electrolytes containing NaCl in the -3 to 50°C temperature range, using potentiostatic and potentiodynamic techniques. Special attention was paid to both the current fluctuations previous to the irreversible breakdown

## Abstract The influence of the spontaneous surface modification of titanium by exposure to Ringer's solution at open‐circuit conditions on the passive behavior was studied. The electrochemical behavior of Ti was compared in a simple NaCl and in Ringer's physiological solution. Potentiodynamic pol

## Abstract A literature survey has lead to the conclusion that a theory which postulates an increased anodic reactivity on a local site in the passive film is very probable. Experiments have been set up to confirm these suggestions. By means of the electron‐microanalyser, it is shown that CI^−^ion

## Abstract The exposure tests followed by metallographic evaluation and the electrochemical reactivation measurements in double‐loop (DL‐EPR) modification were used for investigation of the influence of non‐boiling heat transfer on initiation and rate of propagation of intergranular corrosion (IGC