Injection
molding simulation
– PRODUCT GEOMETRY OPTIMIZATION
Injection molding simulation allows us to evaluate how the part will behave in the forming process — before the injection mold is manufactured. We analyze both technical and visual products (including fiber-reinforced plastics) and then indicate corrections to geometry and process assumptions. We present the results in the form of clear conclusions and recommendations that support decision-making: what to change in the part, what to refine in the tool, and how to prepare for implementation.Starting point
part characteristics
We start each simulation project by understanding the product function and quality criteria. We define the material, operating conditions of the part, and critical elements (dimensions, surfaces, aesthetics). This ensures that the interpretation of results relates to real product requirements, not a “template-based” process evaluation.
Final
result
– INJECTION MOLD OPTIMIZATION
In this service, we focus on the geometry of the material feeding system, thermal analysis, and process optimization. We verify injection mold design assumptions in terms of phenomena that affect quality and process stability (including uneven filling, thermal nodes, and the risk of visual defects on parts). The result is a set of recommendations that improve tool performance and reduce the risk of modifications after trials.Holistic project evaluation
in terms of temperature distribution.
We evaluate the design not only in terms of flow, but also thermal process conditions. We analyze how the designed cooling system affects heat removal from forming components and the dimensional stability of the product. Simulation allows us to predict temperature distribution on forming surfaces and identify areas that may cause warpage, sink marks, or production repeatability issues.