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Article Dans Une Revue Surface and Coatings Technology Année : 2016

Fretting wear response of a nitrided 316L SS/304L SS interface: Effect of lithium/bore liquid environment

E. Marc
  • Fonction : Auteur
S. Fouvry
  • Fonction : Auteur
H. Maitournam
  • Fonction : Auteur

Résumé

In nuclear power plants (NPP), rod cluster control assembly (RCCA) tubes undergo impact under low-pressure contact against guides, leading to specific wear on the contact surfaces. To focus on this industrial issue, an experimental layout was designed to perform reciprocating fretting in different environments. A representative tube interface (nitrided AISI 316L)/plane (AISI 304L) was investigated in air and in a solution composed of 1000 ppm of bore and 130 ppm of lithium to be closed to a NPP primary water chemistry at atmospheric pressure and room temperature. Wear regimes were identified in terms of variation in parameters such as sliding amplitude (from ± 40 μm to ± 160 μm), normal loads (from 2 N/mm to 5 N/mm) and test duration (from 100,000 to 1.5 million cycles). Surface damage evolution was followed by 3D profilometry and several analyses (SEM, EDX, optical observation) were conducted on surfaces and cross-sections. Based on these results, fretting-wear mechanisms in the 304L SS plate and nitrided 316L SS tube were investigated. The first results in dry environment showed that, for δg⁎ <± 120 μm, plane profiles had a “W-shape” whereas for δg⁎ >± 120 μm there was a U-shape. Thus, a W-shape morphology parameter Mw was defined, taking into account the third-body wear volume. Moreover, the worn surfaces of the plane were smoother in solution, and wear was no longer detected on the tube specimens. A modified energy wear approach was then implemented to quantify reciprocating fretting wear rate according to ambient conditions. Finally, two wear mechanisms are proposed.
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Dates et versions

hal-03983122 , version 1 (10-02-2023)

Identifiants

Citer

E. Marc, S. Fouvry, C. Phalippou, H. Maitournam. Fretting wear response of a nitrided 316L SS/304L SS interface: Effect of lithium/bore liquid environment. Surface and Coatings Technology, 2016, 308, pp.226-235. ⟨10.1016/j.surfcoat.2016.06.091⟩. ⟨hal-03983122⟩
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