Corrosion intergranulaire dans l’acide nitrique des aciers inoxydables austénitiques non sensibilisés

“…the rate of this phenomenon based on morphological considerations has been modelled recently [11][12][13]102]. The first model [11][12][13] is based on the fact that intergranular corrosion progresses according to two constant dissolution vectors: the penetration rate of grain boundary V g and the dissolution rate of the intergranular groove sides and of the specimen surface V s .…”

“…The first model [11][12][13] is based on the fact that intergranular corrosion progresses according to two constant dissolution vectors: the penetration rate of grain boundary V g and the dissolution rate of the intergranular groove sides and of the specimen surface V s . Stable grooves are indeed formed because V g is higher than V s .…”

“…where a is the opening angle of the grooves. the long-term penetration depth of corrosion can then be simply determined by measurement of the a angle and of the dissolution rate in a single short-term experiment, largely before stable grain-dropping [11][12][13]. the other method [102] for the long-term rate estimation consists in pretreating the steel into a corrosive medium to initiate the required stable graindropping, then treating the steel in the studied medium within a relatively short time with measurement of the deepest penetration during that time in a random section, normally to the surface.…”

“… 13. Relation between the corrosion rate and the corrosion potential of 304L stainless steel in the presence of different oxidizing ions [Cr(VI), Ce(IV), Mn(VII)] in boiling HNO 3 5 mol/L[36].…”

Corrosion issues in nuclear fuel reprocessing plants

“…the rate of this phenomenon based on morphological considerations has been modelled recently [11][12][13]102]. The first model [11][12][13] is based on the fact that intergranular corrosion progresses according to two constant dissolution vectors: the penetration rate of grain boundary V g and the dissolution rate of the intergranular groove sides and of the specimen surface V s .…”

“…The first model [11][12][13] is based on the fact that intergranular corrosion progresses according to two constant dissolution vectors: the penetration rate of grain boundary V g and the dissolution rate of the intergranular groove sides and of the specimen surface V s . Stable grooves are indeed formed because V g is higher than V s .…”

“…where a is the opening angle of the grooves. the long-term penetration depth of corrosion can then be simply determined by measurement of the a angle and of the dissolution rate in a single short-term experiment, largely before stable grain-dropping [11][12][13]. the other method [102] for the long-term rate estimation consists in pretreating the steel into a corrosive medium to initiate the required stable graindropping, then treating the steel in the studied medium within a relatively short time with measurement of the deepest penetration during that time in a random section, normally to the surface.…”

“… 13. Relation between the corrosion rate and the corrosion potential of 304L stainless steel in the presence of different oxidizing ions [Cr(VI), Ce(IV), Mn(VII)] in boiling HNO 3 5 mol/L[36].…”

Corrosion issues in nuclear fuel reprocessing plants

“…The progression of these grooves inside the steel can induces grain dropping. Some authors proposed that this IGC morphology results from the existence of two different dissolution rates: a dissolution rate at the surface of the grains V s and a dissolution rate at the grain boundaries V gb [10][11][12][13][14]. Based on this phenomenology, a model shows that the total mass loss of the steel is thus ascribable to two contributions: steel oxidation / dissolution and grain dropping [13].…”

Kinetics of the oxidation of stainless steel in hot and concentrated nitric acid in the passive and transpassive domains

A stereological approach for measuring the groove angles of intergranular corrosion