Solver Enhancements for 2027

The following enhancements to the analysis solvers provide you with better solutions and improved accuracy.

Improved Residual Stress Calculation for Dual Domain Analyses

Significant improvements have been made to the residual stress calculation for Dual Domain mesh technology. These improvements reduce the differences in warpage predictions between Dual Domain and 3D mesh technologies. With this update, the warpage predictions from Dual Domain and 3D meshes are now in much better agreement. You will notice changes in warpage predictions for analyses using Dual Domain mesh technology.

Influence of outer heater temperature on temperature of hot runners

When the outer heater temperature of a hot runner manifold is set differently from the melt temperature:

1. The 3D Flow solver of previous Moldflow releases ignored the outer heater setting and instead used the melt temperature to initialize the melt in hot runners. In the Moldflow 2027 release, the 3D Flow solver initializes the melt in the hot runner to match the set outer heater temperature. This change ensures that the temperature results are influenced by the outer heater temperature as expected.
2. In previous Moldflow releases, the Cool + Fill + Pack analysis sequence of the Dual Domain solver also ignored the outer heater temperature setting. This issue has been resolved in the Moldflow 2027 release, where the Cool solver now correctly passes the outer heater temperature to the Dual Domain Flow solver.

"Time to reach ejection temperature" for 3D Flow analysis

In the Moldflow 2027 release, we have enhanced the calculation of the "Time to reach ejection temperature" result for 3D Flow analysis. This improvement will likely reduce the predicted "Time to reach ejection temperature" result for models where hot runners are directly connected to the cold mold cavity.

Improved Warpage Calculation Accuracy

The accuracy of Warp analyses is affected by the nodes selected for the boundary conditions which are part of the deflection calculation. In the new release, the automatic constraint selection method has been made more robust. This change may bring minor result changes in warpage prediction of all mesh types.

Improved solution accuracy around gates

In this release, we have improved the automatic refinement of the calculation mesh around gates in 3D models. This improves accuracy in the transfer of melt temperature from the runner system to the part and result symmetry in multi-cavity molds.

Flow length result

3D Flow analysis now produces the Flow length result that shows the length of the flow path to a node from the injection nodes for all injection molding processes.

Herschel-Bulkley-Cross-WLF viscosity model

The Herschel-Bulkley-Cross-WLF viscosity model is now available for thermoplastic materials across all mesh types (3D, Midplane, and Dual Domain). This model captures yield stress behavior at low shear rates. To enable this model, select Herschel-Bulkley-Cross-WLF under the Default viscosity model option in the Rheological Properties tab and enter the required model coefficients.