Differences

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--- doc:user:elements:volumes:volumeelement [2020/12/28 09:45] – [QuadTriangleVolume2DElement] tanaka
+++ doc:user:elements:volumes:volumeelement [2020/12/29 18:27] (current) – [Volume[2|3]DElement] tanaka
@@ Line 13: / Line 13: @@
 By default, if $n$ is the degree of mechanical interpolation and $d$ the element dimension, the number of integration points in the deviatoric part of the stress field is $(n+1)^{d}$, unless stated otherwise with the definition of ''NIPDKSI'', ''NIPDETA'' or ''NIPDZETA'' (see [[#Parameters ]]). \\ For example, the interpolation of ''Volume2DElement'' is of the first degree ($n=1$), and it is a 2D element ($d=2$), leading to 4 integration points.
-The number of integration points in the volume part of the stress field (pressure) depends on the chosen [[doc:user:elements:volumes:elements_formulation|method to integrate stresses]] are cannot be modified.
+The number of integration points in the volume part of the stress field (pressure) depend on the chosen [[doc:user:elements:volumes:elements_formulation|method to integrate stresses]] and cannot be modified.
 === Remarks ===
@@ Line 109: / Line 109: @@
 Quadratic, 10-nodes tetrahedron in 3D, 30 dofs. As with quadratic elements in 2D, the standard formulation must be used (''CAUCHYMECHVOLINTMETH = VES_CMVIM_STD'').
-By default, stresses are integrate over 4 integration points in the deviatoric part.
+By default, stresses are integrated over 4 integration points in the deviatoric part.
 __Remark__: To use these higher order elements, the mesh must be also defined as second or third degree.