https://forums.autodesk.com/t5/fusion-design-validate-document/proper-simulation-for-silicone-rubber-like-materials-elastomers/m-p/7095367#M203194 <P>What is the proper simulation test and tools&nbsp;to validate the use of&nbsp;silicone/rubber or other elastomer materials?</P> Fri, 19 May 2017 12:44:21 GMT kevinmamaqi 2017-05-19T12:44:21Z https://forums.autodesk.com/t5/fusion-design-validate-document/proper-simulation-for-silicone-rubber-like-materials-elastomers/m-p/7095367#M203194 <P>What is the proper simulation test and tools&nbsp;to validate the use of&nbsp;silicone/rubber or other elastomer materials?</P> Fri, 19 May 2017 12:44:21 GMT https://forums.autodesk.com/t5/fusion-design-validate-document/proper-simulation-for-silicone-rubber-like-materials-elastomers/m-p/7095367#M203194 kevinmamaqi 2017-05-19T12:44:21Z https://forums.autodesk.com/t5/fusion-design-validate-document/proper-simulation-for-silicone-rubber-like-materials-elastomers/m-p/7095940#M203195 <P>Hi <a href="https://forums.autodesk.com/t5/user/viewprofilepage/user-id/2099134">@kevinmamaqi</a>,</P><P>&nbsp;</P><P>Elastomers, while fully elastic, have nonlinear stress-strain behavior. So, you need to consider the strain history and the change in geometry.&nbsp; A linear static stress analysis does not provide the required functionality.&nbsp; However, nonlinear static stress and event simulation analyses do.&nbsp; Each of these study types involves incremental calculations in which the geometry and strain are updated over time.&nbsp; That's half of the battle.&nbsp; The second half is that a hyperelastic material model is required to properly&nbsp;define the nonlinear material behavior.</P><P>&nbsp;</P><P>A hyperelastic material model is currently in development and will be&nbsp;available in an upcoming release of Fusion 360.&nbsp; This hyperelastic model provides a means of adding advanced&nbsp;materials to the Favorites library (and optionally to a user-created library) defined according to the standard <STRONG>2-coefficient Mooney-Rivlin</STRONG> hyperelastic material model.&nbsp; The implementation in Fusion 360 will be for nearly incompressible materials, which introduces a&nbsp;third constant (based on the bulk modulus) needed to define the material's volumetric deformation. You can define a high value for this third constant to approximate incompressible behavior.</P><P>&nbsp;</P><P>When this new material model is released, the Help will include the necessary details regarding the Mooney-Rivlin strain energy function and the definition of the necessary constants.&nbsp; The procedure for creating hyperelastic materials in the library will also be added to the Help.</P><P>&nbsp;</P><P>Mooney-Rivlin constants are generated using a curve-fitting routine and are based on raw stress-strain data from lab tests.&nbsp; There are a number of material curve fitting routines that are commercially available for performing this function.&nbsp; Once the constants are determined, simply create a hyperelastic material in Fusion 360, specify the three constants, specify the density, and the material is ready to be used within a nonlinear simulation study.</P><P>&nbsp;</P><P>Regards,</P><P>-Joe</P><P>&nbsp;</P><P>&nbsp;</P> Fri, 19 May 2017 16:02:31 GMT https://forums.autodesk.com/t5/fusion-design-validate-document/proper-simulation-for-silicone-rubber-like-materials-elastomers/m-p/7095940#M203195 JoeSiii 2017-05-19T16:02:31Z https://forums.autodesk.com/t5/fusion-design-validate-document/proper-simulation-for-silicone-rubber-like-materials-elastomers/m-p/10120001#M203197 <P>Cannot find any news to that topic. Where and how can i introduce my matereial model ?</P><P>&nbsp;</P> Mon, 01 Mar 2021 09:33:20 GMT https://forums.autodesk.com/t5/fusion-design-validate-document/proper-simulation-for-silicone-rubber-like-materials-elastomers/m-p/10120001#M203197 weltin2MMEW 2021-03-01T09:33:20Z