https://forums.autodesk.com/t5/fusion-design-validate-document/statasys-verowhite-material-simulation/m-p/6479924#M249090 <P>We actually ended up with a custom material modified from plastic <EM><STRONG>PA 66</STRONG></EM> (also named <EM><STRONG>Nylon 6/6</STRONG></EM> in Fusion) which has close specs (<A href="https://hal.inria.fr/file/index/docid/778316/filename/Schneider_et_al._-_OPTIMISATION_NUMERIQUE_EN_PROTOTYPAGE_RAPIDE.pdf" target="_self">check here why</A>, in French I am afraid). We have refined the specs using the values <A href="http://engineering.usask.ca/documents/facilities/specs/Eden_FullCure800.pdf" target="_self">found here</A> and making the assumption that the material is fragile / brittle (it seems to be the case when knocking on a material sample), so</P><P>Yield Strength = <SPAN>Tensile Strength</SPAN>. The bold lines are the ones required for static simulation (which is the only simulation we were interested in), that is:</P><P>&nbsp;</P><P>&nbsp;</P><P><SPAN>/////////////////////////////////////////////////////////</SPAN></P><P><STRONG><SPAN>PA 66 (Nylon)</SPAN></STRONG><SPAN> : source material<BR /></SPAN></P><P><SPAN>Thermal Conductivity</SPAN></P><P><SPAN>2.4 e-1 W / (m K)</SPAN><SPAN>&nbsp;</SPAN></P><P><SPAN>&nbsp;</SPAN></P><P><SPAN>Specific Heat</SPAN><SPAN>&nbsp;</SPAN></P><P><SPAN>1.34 J / (g C)</SPAN><SPAN>&nbsp;</SPAN></P><P><SPAN>&nbsp;</SPAN></P><P><SPAN>Thermal Expansion Coefficient</SPAN><SPAN>&nbsp;</SPAN></P><P><SPAN>55.8 µm / (m C)</SPAN><SPAN>&nbsp;</SPAN></P><P><SPAN>&nbsp;</SPAN></P><P><STRONG><SPAN>Behavior</SPAN></STRONG><SPAN><BR /></SPAN></P><P><STRONG><SPAN>isotropic</SPAN></STRONG><SPAN>&nbsp;</SPAN></P><P><STRONG><SPAN>Young's Modulus</SPAN></STRONG></P><P><STRONG><SPAN>2930 GPa</SPAN></STRONG><SPAN><BR /></SPAN></P><P><STRONG><SPAN>Poisson's ratio</SPAN></STRONG></P><P><STRONG><SPAN>0,35</SPAN></STRONG><SPAN><BR /></SPAN></P><P><SPAN>Shear Modulus</SPAN><SPAN>&nbsp;</SPAN></P><P><SPAN>1000 MPa</SPAN><SPAN>&nbsp;</SPAN></P><P><SPAN>&nbsp;</SPAN></P><P><STRONG><SPAN>Density</SPAN></STRONG><SPAN>&nbsp;</SPAN></P><P><STRONG><SPAN>1.13 g/cm^3</SPAN></STRONG><SPAN><BR /></SPAN></P><P><STRONG><SPAN>Yield Strengt </SPAN></STRONG></P><P><STRONG><SPAN>82.75 MPa</SPAN></STRONG><SPAN><BR /></SPAN></P><P><SPAN>Tensile Strength</SPAN></P><P><SPAN>82.68 MPa</SPAN><SPAN><BR /></SPAN></P><P>&nbsp;</P><P><SPAN>/////////////////////////////////////////////////////////</SPAN></P><P><STRONG><SPAN>VeroWhite</SPAN></STRONG><SPAN> : modified from PA 66<BR /></SPAN></P><P><SPAN>Thermal Conductivity</SPAN></P><P><SPAN>2.4 e-1 W / (m K)</SPAN><SPAN>&nbsp;</SPAN></P><P><SPAN>&nbsp;</SPAN></P><P><SPAN>Specific Heat</SPAN><SPAN>&nbsp;</SPAN></P><P><SPAN>1.34 J / (g C)</SPAN><SPAN>&nbsp;</SPAN></P><P><SPAN>&nbsp;</SPAN></P><P><SPAN>Thermal Expansion Coefficient</SPAN><SPAN>&nbsp;</SPAN></P><P><SPAN>55.8 µm / (m C)</SPAN><SPAN>&nbsp;</SPAN></P><P><SPAN>&nbsp;</SPAN></P><P><STRONG><SPAN>Behavior</SPAN></STRONG><SPAN><BR /></SPAN></P><P><STRONG><SPAN>isotropic</SPAN></STRONG><SPAN>&nbsp;</SPAN></P><P><STRONG><SPAN>Young's Modulus</SPAN></STRONG></P><P><STRONG><SPAN>2495 MPa</SPAN></STRONG><SPAN>&nbsp;</SPAN></P><P><STRONG><SPAN>Poisson's ratio<BR /></SPAN></STRONG></P><P><STRONG><SPAN>0.38</SPAN></STRONG><SPAN>&nbsp;</SPAN></P><P><SPAN>Shear Modulus</SPAN><SPAN>&nbsp;</SPAN></P><P><SPAN>1000 MPa</SPAN><SPAN>&nbsp;</SPAN></P><P><SPAN>&nbsp;</SPAN></P><P><STRONG><SPAN>Density</SPAN></STRONG><SPAN><BR /></SPAN></P><P><STRONG><SPAN>1.174</SPAN></STRONG><STRONG><SPAN> g/cm^3</SPAN></STRONG><SPAN>&nbsp;</SPAN></P><P><STRONG><SPAN>Yield Strength<BR /></SPAN></STRONG></P><P><STRONG><SPAN>58 MPa</SPAN></STRONG><SPAN>&nbsp;</SPAN></P><P><SPAN>Tensile Strength<BR /></SPAN></P><P><SPAN>58 MPa</SPAN></P> Fri, 05 Aug 2016 07:11:07 GMT Anonymous 2016-08-05T07:11:07Z https://forums.autodesk.com/t5/fusion-design-validate-document/statasys-verowhite-material-simulation/m-p/6478007#M249089 <P>Hi all,</P><P>&nbsp;</P><P>We are using Fusion 360 to model a part which is subject to a load. Our part will be machined by a 3D printer (by StrataSys) and made of VeroWhite resin. We want to make sure this prototype part is strong enough for our application so we have put together a simulation. We did not find the VeroWhite material in the material choices. We do have the technical specs for the material (<A href="http://engineering.usask.ca/documents/facilities/specs/Eden_FullCure800.pdf" target="_self">check this link</A>) but it seems some values needed by the simulation are not found in the specs (e.g. the yield strength, the tensile strength, the Poisson coefficient...).</P><P>&nbsp;</P><P>VeroWhite is a very common material in prototyping, hence the question: how do you guys simulate when having the VeroWhite as the target material? Do you use a material already in Fusion 360 and with close specs? Did you find the missing values elsewhere?</P><P>&nbsp;</P><P>Thanks a lot,</P><P>&nbsp;</P><P>Antoine.</P> Thu, 04 Aug 2016 11:38:21 GMT https://forums.autodesk.com/t5/fusion-design-validate-document/statasys-verowhite-material-simulation/m-p/6478007#M249089 Anonymous 2016-08-04T11:38:21Z https://forums.autodesk.com/t5/fusion-design-validate-document/statasys-verowhite-material-simulation/m-p/6479924#M249090 <P>We actually ended up with a custom material modified from plastic <EM><STRONG>PA 66</STRONG></EM> (also named <EM><STRONG>Nylon 6/6</STRONG></EM> in Fusion) which has close specs (<A href="https://hal.inria.fr/file/index/docid/778316/filename/Schneider_et_al._-_OPTIMISATION_NUMERIQUE_EN_PROTOTYPAGE_RAPIDE.pdf" target="_self">check here why</A>, in French I am afraid). We have refined the specs using the values <A href="http://engineering.usask.ca/documents/facilities/specs/Eden_FullCure800.pdf" target="_self">found here</A> and making the assumption that the material is fragile / brittle (it seems to be the case when knocking on a material sample), so</P><P>Yield Strength = <SPAN>Tensile Strength</SPAN>. The bold lines are the ones required for static simulation (which is the only simulation we were interested in), that is:</P><P>&nbsp;</P><P>&nbsp;</P><P><SPAN>/////////////////////////////////////////////////////////</SPAN></P><P><STRONG><SPAN>PA 66 (Nylon)</SPAN></STRONG><SPAN> : source material<BR /></SPAN></P><P><SPAN>Thermal Conductivity</SPAN></P><P><SPAN>2.4 e-1 W / (m K)</SPAN><SPAN>&nbsp;</SPAN></P><P><SPAN>&nbsp;</SPAN></P><P><SPAN>Specific Heat</SPAN><SPAN>&nbsp;</SPAN></P><P><SPAN>1.34 J / (g C)</SPAN><SPAN>&nbsp;</SPAN></P><P><SPAN>&nbsp;</SPAN></P><P><SPAN>Thermal Expansion Coefficient</SPAN><SPAN>&nbsp;</SPAN></P><P><SPAN>55.8 µm / (m C)</SPAN><SPAN>&nbsp;</SPAN></P><P><SPAN>&nbsp;</SPAN></P><P><STRONG><SPAN>Behavior</SPAN></STRONG><SPAN><BR /></SPAN></P><P><STRONG><SPAN>isotropic</SPAN></STRONG><SPAN>&nbsp;</SPAN></P><P><STRONG><SPAN>Young's Modulus</SPAN></STRONG></P><P><STRONG><SPAN>2930 GPa</SPAN></STRONG><SPAN><BR /></SPAN></P><P><STRONG><SPAN>Poisson's ratio</SPAN></STRONG></P><P><STRONG><SPAN>0,35</SPAN></STRONG><SPAN><BR /></SPAN></P><P><SPAN>Shear Modulus</SPAN><SPAN>&nbsp;</SPAN></P><P><SPAN>1000 MPa</SPAN><SPAN>&nbsp;</SPAN></P><P><SPAN>&nbsp;</SPAN></P><P><STRONG><SPAN>Density</SPAN></STRONG><SPAN>&nbsp;</SPAN></P><P><STRONG><SPAN>1.13 g/cm^3</SPAN></STRONG><SPAN><BR /></SPAN></P><P><STRONG><SPAN>Yield Strengt </SPAN></STRONG></P><P><STRONG><SPAN>82.75 MPa</SPAN></STRONG><SPAN><BR /></SPAN></P><P><SPAN>Tensile Strength</SPAN></P><P><SPAN>82.68 MPa</SPAN><SPAN><BR /></SPAN></P><P>&nbsp;</P><P><SPAN>/////////////////////////////////////////////////////////</SPAN></P><P><STRONG><SPAN>VeroWhite</SPAN></STRONG><SPAN> : modified from PA 66<BR /></SPAN></P><P><SPAN>Thermal Conductivity</SPAN></P><P><SPAN>2.4 e-1 W / (m K)</SPAN><SPAN>&nbsp;</SPAN></P><P><SPAN>&nbsp;</SPAN></P><P><SPAN>Specific Heat</SPAN><SPAN>&nbsp;</SPAN></P><P><SPAN>1.34 J / (g C)</SPAN><SPAN>&nbsp;</SPAN></P><P><SPAN>&nbsp;</SPAN></P><P><SPAN>Thermal Expansion Coefficient</SPAN><SPAN>&nbsp;</SPAN></P><P><SPAN>55.8 µm / (m C)</SPAN><SPAN>&nbsp;</SPAN></P><P><SPAN>&nbsp;</SPAN></P><P><STRONG><SPAN>Behavior</SPAN></STRONG><SPAN><BR /></SPAN></P><P><STRONG><SPAN>isotropic</SPAN></STRONG><SPAN>&nbsp;</SPAN></P><P><STRONG><SPAN>Young's Modulus</SPAN></STRONG></P><P><STRONG><SPAN>2495 MPa</SPAN></STRONG><SPAN>&nbsp;</SPAN></P><P><STRONG><SPAN>Poisson's ratio<BR /></SPAN></STRONG></P><P><STRONG><SPAN>0.38</SPAN></STRONG><SPAN>&nbsp;</SPAN></P><P><SPAN>Shear Modulus</SPAN><SPAN>&nbsp;</SPAN></P><P><SPAN>1000 MPa</SPAN><SPAN>&nbsp;</SPAN></P><P><SPAN>&nbsp;</SPAN></P><P><STRONG><SPAN>Density</SPAN></STRONG><SPAN><BR /></SPAN></P><P><STRONG><SPAN>1.174</SPAN></STRONG><STRONG><SPAN> g/cm^3</SPAN></STRONG><SPAN>&nbsp;</SPAN></P><P><STRONG><SPAN>Yield Strength<BR /></SPAN></STRONG></P><P><STRONG><SPAN>58 MPa</SPAN></STRONG><SPAN>&nbsp;</SPAN></P><P><SPAN>Tensile Strength<BR /></SPAN></P><P><SPAN>58 MPa</SPAN></P> Fri, 05 Aug 2016 07:11:07 GMT https://forums.autodesk.com/t5/fusion-design-validate-document/statasys-verowhite-material-simulation/m-p/6479924#M249090 Anonymous 2016-08-05T07:11:07Z