Filling Simulation
PointX3D provides injection‑mold filling simulation to validate part manufacturability before tooling begins. We analyze flow behavior, pressure, cooling, and gate performance to predict defects like short shots, weld lines, and warpage. This reduces tool rework, shortens development cycles, and ensures your mold design is optimized for consistent, high‑quality production.
Read The Story arrow_forward_iosMeshing
PointX3D prepares high‑quality mesh models to ensure accurate and reliable simulation results. We optimize element size, refine critical features, and correct geometry issues to improve flow, thermal, and structural analysis performance. A clean, well‑structured mesh reduces errors, speeds up computation, and delivers more trustworthy insights for design and manufacturing decisions.
Thinning Simulation
PointX3D provides thinning simulation using AutoForm to predict material stretch, thinning hotspots, and potential failure zones during sheet‑metal forming. Our analysis helps optimize tool geometry, blank shape, and process parameters early in development. By identifying risks before tryout, we reduce rework, improve part quality, and ensure a more stable, manufacturable forming process. Core shift Simulation
PointX3D performs core‑shift simulation in Moldflow to predict how injection pressure, material flow, and tooling constraints may deflect cores during molding. By identifying displacement risks early, we help optimize core support, gate placement, and process parameters. This reduces dimensional variation, prevents part defects, and ensures more stable, predictable mold performance.
Cooling Simulation
PointX3D performs cooling simulation to evaluate mold temperature distribution, cooling‑channel efficiency, and cycle‑time performance. We identify hotspots, uneven cooling, and warpage risks early in the design phase. By optimizing channel layout, coolant flow, and mold materials, we help achieve faster cycles, improved dimensional stability, and more consistent, high‑quality molded parts.
mucell simulation
PointX3D offers MuCell simulation to evaluate microcellular foam behavior during injection molding. We analyze cell nucleation, growth, and density distribution to predict weight reduction, pressure drop, and structural performance. By optimizing process parameters, gate design, and material selection, we help achieve lighter parts, reduced sink, and more stable, energy‑efficient molding cycles Formability Simulation
PointX3D delivers formability simulation using AutoForm to predict material thinning, wrinkling, and failure risks during sheet‑metal forming. We analyze strain distribution, draw‑in behavior, and tooling effects to validate manufacturability early. By optimizing blank shape, process parameters, and tool geometry, we reduce tryout loops, improve part quality, and ensure a stable, production‑ready forming process.
warpage sim
PointX3D performs warpage simulation in Moldflow to predict deformation caused by differential shrinkage, cooling imbalance, and residual stresses. We analyze flow, packing, and thermal behavior to identify distortion risks early. By optimizing gate locations, cooling layouts, and process parameters, we help ensure dimensional accuracy, reduce tool rework, and deliver stable, production‑ready molded parts.
Draw time simulation
PointX3D performs draw‑time simulation in AutoForm to evaluate material flow, strain evolution, and tooling interaction throughout the forming stroke. We identify risks such as wrinkling, thinning, and early failure while validating draw‑in behavior. By optimizing process parameters, blank shape, and tool geometry, we help ensure a stable, predictable, and production‑ready forming process.
