The deformation of a martensitic steel (P91) at the microscale is investigated using the finite element method. The approach takes into account the hierarchical grain-packet-block microstructure of the steel as determined experimentally by electron backscatter diffraction (EBSD). The orientation relationship for P91 between the prior austenite grain (PAG) and the martensitic packet/block is determined and found to be consistent with the Kurdjumow-Sachs (K-S) relationship. This relationship is incorporated within a finite-element model to represent the material microstructure, using a representative volume element (RVE) generated by a modified centroidal Voronoi tesselation (VT) approach. A non-linear, rate dependent, finite strain crystal ...
International audienceIn this paper, a numerical investigation is carried out on the heterogeneous a...
The multiscale model is proposed to explicitly account for the inhomogeneous structure of polycrysta...
A fundamental prerequisite for the micromechanical simulation of fatigue is the appropriate modellin...
peer-reviewedThe deformation of a martensitic steel (P91) at the microscale is investigated using th...
Inelastic deformation of a high-strength martensitic steel (P91) is investigated using a strain grad...
The objective of this work is to investigate the plastic deformation and associated microstructural ...
The microstructural deformation of ex-service 9Cr-1Mo steel, with a tempered martensitic microstruct...
The mechanical properties of metals have been investigated.This has been done by creating micromecha...
peer-reviewedIn this paper, a nite-element modelling framework is presented with explicit represent...
Dual phase steels are well suited to the automotive application. Their microstru...
P91 steel, a tempered martensitic steel containing 9% Cr and 1% Mo, is a widely used material in the...
The martensite structure of steel is of great importance in mechanical engineering and is usually ad...
Due to the existence of constituents with strong distinction in mechanical properties, dual phase st...
Size effect is a special phenomenon in metal micro-forming process. As the deformation process is sc...
The work in this thesis focuses on the martensitic steel known as P91. In this work the mechanical r...
International audienceIn this paper, a numerical investigation is carried out on the heterogeneous a...
The multiscale model is proposed to explicitly account for the inhomogeneous structure of polycrysta...
A fundamental prerequisite for the micromechanical simulation of fatigue is the appropriate modellin...
peer-reviewedThe deformation of a martensitic steel (P91) at the microscale is investigated using th...
Inelastic deformation of a high-strength martensitic steel (P91) is investigated using a strain grad...
The objective of this work is to investigate the plastic deformation and associated microstructural ...
The microstructural deformation of ex-service 9Cr-1Mo steel, with a tempered martensitic microstruct...
The mechanical properties of metals have been investigated.This has been done by creating micromecha...
peer-reviewedIn this paper, a nite-element modelling framework is presented with explicit represent...
Dual phase steels are well suited to the automotive application. Their microstru...
P91 steel, a tempered martensitic steel containing 9% Cr and 1% Mo, is a widely used material in the...
The martensite structure of steel is of great importance in mechanical engineering and is usually ad...
Due to the existence of constituents with strong distinction in mechanical properties, dual phase st...
Size effect is a special phenomenon in metal micro-forming process. As the deformation process is sc...
The work in this thesis focuses on the martensitic steel known as P91. In this work the mechanical r...
International audienceIn this paper, a numerical investigation is carried out on the heterogeneous a...
The multiscale model is proposed to explicitly account for the inhomogeneous structure of polycrysta...
A fundamental prerequisite for the micromechanical simulation of fatigue is the appropriate modellin...