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--- doc:user:elements:contact:laws [2014/11/05 18:06] – wautelet
+++ doc:user:elements:contact:laws [2025/04/29 15:37] (current) – papeleux
@@ Line 61: / Line 61: @@
 An evolution function must be associated to ''PEN_NORMALE'' and/or ''PEN_TANGENT'' (depending on generalized displacements GD). These function can be different.
+===== AdhesiveStickingContactMaterial =====
+=== Description ===
+Adhesive sticking contact is a sticking Contact material that is initialized with an unilateral type of contact (positive or negative) and that each slave node where contact is detected becomes bilateral (adhesive behavior).
+Up to now, forces are computed forces are computed as classical sticking depending to Normal and Tangential Penalty.
+=== Parameters ===
+^   Name                               ^     Metafor Code     ^  Dependency ^
+| Penalty along normal direction       |   ''PEN_NORMALE''    |        ''TM''        |
+| Penalty along tangential direction   |   ''PEN_TANGENT''    |        ''TM''        |
+| Depth at which contact is detected   |    ''PROF_CONT''     |          -           |
+| Initial Type of contact              |    ''TYPE_CONT''     |          -           |
 ===== CoulombContactMaterial =====
@@ Line 81: / Line 95: @@
 === Description ===
-Tresca's friction law. Friction do not depend on pressure. It is calculated using penalty method with sticking contact, and starts sliding once the tangential stress reaches a threshold entered by the user.
+Tresca's friction law. Friction do not depend on pressure. It is computed using penalty method with sticking contact, and starts sliding once the tangential stress reaches a threshold entered by the user.
 :!: This law requires the use of ''AREAINCONTACT'' = ''AIC_ONCEPERSTEP''
@@ Line 90: / Line 104: @@
 | Penalty along tangential direction                 |   ''PEN_TANGENT''    |        ''TM''        |
 | Depth at which contact is detected                 |    ''PROF_CONT''     |          -           |
-| Frictional shear factor |  ''TRESCA_M''   |        ''TM''        |
+| Static frictional shear factor |  ''TRESCA_STA_M''   |        ''TM''        |
-| Initial shear yield stress  |  ''TRESCA_K''   |        ''TM''        |
+| Dynamic frictional shear factor |  ''TRESCA_DYN_M''   |        ''TM''        |
+| Initial shear yield stress  |  ''TRESCA_K''   |        -        |
 | Type of contact                                    |    ''TYPE_CONT''     |          -           |
-The threshold is usually calculated using  $m\,\sigma_0\,/\sqrt{3}$  where //m// is Tresca's coefficient of friction  and  $\sigma_0$  is the tensile yield stress of the material.
+The threshold is usually computed using  $m\,\sigma_0\,/\sqrt{3}$  where //m// is Tresca's coefficient of friction  and  $\sigma_0$  is the tensile yield stress of the material.
 ===== TmFrictionlessContactMaterial =====
@@ Line 177: / Line 192: @@
 | Penalty along tangential direction   |   ''PEN_TANGENT''    |        ''TM''        |
 | Depth at which contact is detected   |    ''PROF_CONT''     |          -           |
-| Frictional shear factor |  ''TRESCA_M''   |        ''TM''        |
+| Static frictional shear factor |  ''TRESCA_STA_M''   |        ''TM''        |
-| Initial shear yield stress  |  ''TRESCA_K''   |        ''TM''        |
+| Dynamic frictional shear factor |  ''TRESCA_DYN_M''   |        ''TM''        |
+| Initial shear yield stress  |  ''TRESCA_K''   |        -        |
 | Nominal thermal resistance           |  ''CTM_H_NOMINAL''   |          -           |
 | Exponent                             |  ''CTM_EXPONENT_E''  |          -           |
@@ Line 184: / Line 200: @@
 | Type of contact                      |    ''TYPE_CONT''     |          -           |
-The threshold is usually calculated using  $m\,\sigma_0\,/\sqrt{3}$  where //m// is Tresca's coefficient of friction  and  $\sigma_0$  is the tensile yield stress of the material.
+The threshold is usually computed using  $m\,\sigma_0\,/\sqrt{3}$  where //m// is Tresca's coefficient of friction  and  $\sigma_0$  is the tensile yield stress of the material.
 :!: Not tested in 3D :!: