Modeling A ============== Characteristics of the mesh ---------------------------- See § :ref:`1.1 ` :ref:`Géométrie utilisée `. • GROUP_MA = 'DALLE': all the triangles and quadrangles meshes; • GROUP_MA_POI = 'MASSE_DALLE': all the nodes in the group of elements' DALLE '; • GROUP_MA = 'LIGNE ':all mesh segments; • GROUP_MA_POI = 'MASSE_LIGNE ':all the nodes in the group of elements' LIGNE ' Assignments tested -------------------- Distribution of a mass over a surface. **MASS_REP** = **_F (GROUP_MA** = '**DALLE** =' **** ', **GROUP_MA_POI1** =' **MASSE_DALLE** ** ', **VALE** = **12.0,** **** TYPE = 'TOTALE') ** Distribution of a surface mass over a surface. **MASS_REP** = **_F (GROUP_MA** = '**DALLE** =' **** ', **GROUP_MA_POI1** =' **MASSE_DALLE** ** ', **VALE** = **1.0,** **** TYPE = 'SURFACIQUE') ** Distribution of a mass on a line. **MASS_REP** = **_F (GROUP_MA** = '**LIGNE** =' **** ', **GROUP_MA_POI1** =' **MASSE_LIGNE** ** ', **VALE** = 4 *\*.0, **** **TYPE = 'TOTALE')** Distribution of a linear mass on a line. **MASS_REP** = **_F (GROUP_MA** = '**LIGNE** =' **** ', **GROUP_MA_POI1** =' **MASSE_LIGNE** ** ', **VALE** = **1.0,** **** TYPE = 'LINEIQUE') ** Definition of a function: **function** = **FORMULE (NOM_PARA** = ('X', 'Y', 'Z'), **VALE** = "**2*X+3*Y**" **)**) ** Distribution of mass, weighted by function, over a surface. **MASS_REP** = **_F (GROUP_MA** = '**DALLE** =' **** ', **GROUP_MA_POI1** =' **MASSE_DALLE** ** ', **VALE** = **12.0,** **** TYPE = 'TOTALE '**,** FONC_MULT **=**function) ** Tested sizes and results ------------------------------ The concept from order AFF_CARA_ELEM is printed in a file and a TEST_FICHIER is created.