Abstract 316L stainless steel (316L SS) is a flagship material for structural applications in
corrosive environments, having been extensively studied for decades for its favorable …

The complex degradation of metallic materials in aggressive environments can result in
morphological and microstructural changes. The phase-field (PF) method is an effective …

A phase-field model is developed to simulate the corrosion of Mg alloys in body fluids. The
model incorporates both Mg dissolution and the transport of Mg ions in solution, naturally …

A new theoretical phase field-based formulation for predicting electro-chemo-mechanical
corrosion in metals is presented. The model combines electrolyte and interface …

We introduce a mechano-chemical coupled peridynamic model for stress-assisted
corrosion. In the model, the activation-controlled anodic dissolution is a function of nonlocal …

Pitting corrosion damage is a major problem affecting material strength and may result in
difficult to predict catastrophic failure of metallic material systems and structures …

Most metals naturally corrode in an engineering environment and form corrosion products.
The corrosion products can be either soluble or insoluble in the aqueous solution. The …

A coupled peridynamic (PD) corrosion-fracture model is introduced, in which the local
corrosion rate is determined by solving the corresponding electrostatic problem. By being …

In this work, the stress corrosion cracking (SCC) mechanism of austenitic stainless steel AISI
316 LN rebar is studied along the entire stress-strain diagram by slow strain rate technique …

Maximum pit sizes were predicted for dilute and concentrated NaCl and MgCl 2 solutions as
well as sea-salt brine solutions corresponding to 40% relative humidity (RH)(MgCl 2-rich) …