Add to ORKGThe origins of gradient terms in plasticity are discussed for three different cases related to atomic distance, dislo-cations, and finite grain size
Cowper-Symonds and Johnson-Cook dynamic constitutive relations are used to study the influence of bo...
To explain the size effect found in the testing of plastic behavior of metals on the micrometer scal...
AbstractA physically motivated and thermodynamically consistent formulation of small strain higher-o...
Deformation in metals is size dependent over length scales ranging from a few nanometers to 100 μm. ...
These data are related to our paper "Dabiao Liu*, and D. J. Dunstan. Material Length Scale of Strain...
Motivated in large part by the inability of classical theories to model material behaviour at the me...
The relations between mesoscopic plastic strain gradients, \u27geometrically necessary\u27 dislocati...
A physically motivated and thermodynamically consistent formulation of higher-order gradient plastic...
Over a scale which extends from about a fraction of a micron to tens of microns, metals display a st...
International audienceStrain gradient plasticity effects arise from the interplay between the typica...
AbstractGradient plasticity theory formulates a constitutive framework on the continuum level that b...
In the context of single-crystal strain gradient plasticity, we focus on the simple shear of a const...
This chapter focuses on the foundation and development of various higher-order strain gradient plast...
This article, written in honor of Professor Nemat-Nasser, provides an update of the standard theorie...
A class of phenomenological strain gradient plasticity theories is formulated to accommodate more th...
Cowper-Symonds and Johnson-Cook dynamic constitutive relations are used to study the influence of bo...
To explain the size effect found in the testing of plastic behavior of metals on the micrometer scal...
AbstractA physically motivated and thermodynamically consistent formulation of small strain higher-o...
Deformation in metals is size dependent over length scales ranging from a few nanometers to 100 μm. ...
These data are related to our paper "Dabiao Liu*, and D. J. Dunstan. Material Length Scale of Strain...
Motivated in large part by the inability of classical theories to model material behaviour at the me...
The relations between mesoscopic plastic strain gradients, \u27geometrically necessary\u27 dislocati...
A physically motivated and thermodynamically consistent formulation of higher-order gradient plastic...
Over a scale which extends from about a fraction of a micron to tens of microns, metals display a st...
International audienceStrain gradient plasticity effects arise from the interplay between the typica...
AbstractGradient plasticity theory formulates a constitutive framework on the continuum level that b...
In the context of single-crystal strain gradient plasticity, we focus on the simple shear of a const...
This chapter focuses on the foundation and development of various higher-order strain gradient plast...
This article, written in honor of Professor Nemat-Nasser, provides an update of the standard theorie...
A class of phenomenological strain gradient plasticity theories is formulated to accommodate more th...
Cowper-Symonds and Johnson-Cook dynamic constitutive relations are used to study the influence of bo...
To explain the size effect found in the testing of plastic behavior of metals on the micrometer scal...
AbstractA physically motivated and thermodynamically consistent formulation of small strain higher-o...