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Communication Dans Un Congrès Année : 2006

Cleavage fracture micromechanisms related to WPS effect in RPV steel

Résumé

The main objective of this paper is to characterise the changes caused by warm pre-stress (WPS) on the cleavage fracture micromechanisms of a 18MND5 (A533B) reactor pressure vessel (RPV) steel. In this purpose, different WPS fracture test results obtained on compact tensile (CT) and notched tensile (NT) geometries are presented and compared with isothermal test data. While confirming some well-established features of WPS, these experimental results, analysed through extensive fractographic investigations and finite element (FE) calculations, demonstrate a strong material aspect to WPS. One unveiled characteristic of the WPS effect is the deactivation of particles at high temperature through plastic straining under low stress, which enables breaking, or detaching from the matrix, the most critical particles without causing unstable cleavage propagation. In 18MND5 steel, these particles are TiN and carbide particles: according to the pre-stress level and fracture geometry, there is a progressive shift from TiN- to carbide-induced cleavage, up to the replacement of both by ductile type nucleation mechanisms.
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Dates et versions

hal-00146314 , version 1 (06-06-2013)

Identifiants

  • HAL Id : hal-00146314 , version 1

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S.R. Bordet, Benoit Tanguy, Stéphane Bugat, D. Moinereau, André Pineau. Cleavage fracture micromechanisms related to WPS effect in RPV steel. Fracture of nano and engineering materials and structures, ECF 16, Jul 2006, Alexandroupolis, Greece. 8 p. ⟨hal-00146314⟩
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