Experiment 2 – Digital Brain for Injection Moulding

The experiment aims at the digitalization of an injection moulding process for quick process set-up and production optimization.


Inymon,'s core business is the injection and decoration of small to medium-sized plastic parts. For every new part to put in production by INYMON, process set-up and optimization is a key phase to keep the company competitiveness in an extremely time and cost demanding market. Today, this adjustment is performed based on experience and through trial and error loops. The use of simulation tools to design the injection process of thermoplastic parts is common practice in the plastics processing industry. Basically, these tools available in commercial packages such as Moldflow, Moldex3D etc. are used in the mould design stage, with the main objective of anticipating manufacturing problems and finding an “a priori” solution analysing alternatives of part and mould design, thereby reducing development costs and development time. However, the use of these tools for process set-up and parameter optimization is much less common and based on a trial-and-error approach. When the mould is already built and the piece goes into production, it is no longer feasible to perform such simulations to make decisions about the adjustments to be made on the line in the event of any variation produced, due to the excessive time it would take to make them. This constitutes a significant loss of opportunity, since the power provided by simulation tools reproducing the physics of processes stops being useful because of the impossibility of having results immediately, which is the necessary requirement in decision making to control of the process in the injection line.


ITAINNOVA will extend CAELIATM-Injection app used by Inymon already: a configurable service for reducing time-to-production in the set-up phase and for reducing cycle times during production.
To have available a tool/service that supports the injection moulding process optimization based on simulations accounting for the physics of problem behind will be very useful fir Inymon. This knowledge based tool will support the selection of proper process parameters that minimize the injection cycle time whilst keeping quality indicators of the selected part within tolerances. The resulting tool will be primarily used at the workshop, so it must be simple and user friendly, requiring only minimum of training and not necessary having modeling experience to use it. To allow it a graphical web based user interface will be allocated in the DigitBrain platform, where the process engineer will try different machine settings in a virtual environment. MONTIMAGE will develop this reconfigurable user interface that can load ROM models and interface with available experimental data from the injection line.


The main impact for the injection moulding industry is that the process setup is guided by the knowledge provided by the simulation tools, which account for the physics of the process. That is, the knowledge that the physics-based simulations tools provide extends from just being used in the mould design stage, to the process set-up and the part production stages.

This approach complements other commonly used aproaches purely based on data captured in the injection line and applying Machine Learning technices. The main contribution of the present approach is that provides insight to the process engineer from the very begining, when the mould is set up and there is still not real data available in the monitoring system. In addtition it also provides a layer of interpretability of what happens inside the mould, complementing usually black box aproaches based on neuronal networks.

To achieve this point, the developer must complete previously a sequence of activities. First to establish the proper knowledge-based simulation model that represents the injection process steps (filling-packing-cooling-part release) and which outputs are estimations of the part quality indicators. These simulations will be exploited through a simulation DOE that will allow to explore the procesing window. Reduced order techniques will allow to encapsulate these results in sinple models that run on the fly and that will constitue a Digital Twin of the process, being operable through the user interface. Based on data collected directly in the injection line, the developer can also update/correct the Digital Twin for achieving higher accuracy.

Project Partners

  • INYMON will define the injection process of reference for the experiment and will provide available collected data from online sensoring of the process.
  • ITAINNOVA, the Digital Innovation Hub in this experiment, will extend CAELIATM-Injection app: a configurable service for reducing time-to-production in the set-up phase and for reducing cycle times during production.
  • MONTIMAGE will develop a reconfigurable user interface that can load ROM models and interface with available experimental data from the injection line.

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