Story
Foaming Simulation: Digital processing of polyurethane systems
Transform your polyurethane process with our in-house foam simulation solution. Digital twins of our PU systems predict the foaming behavior with high accuracy and enable our customers to optimize their processing setups. Speed up your time-to-market and achieve superior product performance, while reducing costly physical trials and mitigating risks.
The foundation: Building digital material twins
Since inventing polyurethane in 1937, an experience of 85+ years of formulation and processing excellence has been gained that Covestro builds upon - now digitalized in our proprietary foaming simulation solution. Our tailor-made solution integrates sophisticated material characterization with advanced numerical modeling that captures the reactive chemistry of polyurethane systems. We incorporate the most comprehensive chemical understanding possible, tracking reaction kinetics and chemo-rheological behavior with unprecedented accuracy, enabling simulation-driven decision-making. Experience the chemical heritage of Covestro transformed into digital precision for your next innovation.
Building blocks for our digital material twins
-
Formulation -
Experiment -
Validation -
Optimization
Our offer: Tailor made simulation service for your product innovation
Leverage our exclusive foaming simulation service to analyze your polyurethane applications before production. Our digital twins predict material behavior, helping you select the right formulation, reduce material usage, optimize your tooling, and transform complex processing challenges into competitive advantages. We provide tailored support through virtual troubleshooting and process optimization—all delivered through detailed visualizations and expert consultation. This service helps you navigate formulation changes with higher confidence. Partner with Covestro to reduce development cycles and increase production efficiency with our unparalleled chemical and digital expertise.
Key benefits
- Accelerated Development: Eliminate costly trial-and-error cycles with virtual prototyping
- Material Selection: We support you to select the right material for your use case
- Risk Mitigation Identify potential processing issues before production begins
- Quality Improvement: Fine-tune process parameters and tool design
- Formulation Flexibility: Quickly assess impacts of formulation changes
- Cost Reduction: Minimize material waste and production downtime
Explore Possibilities
See what´s possible by exploring the following list of application examples:
Our simulation solution predicts foam flow patterns in open or closed mold filling processes for instrument panels with high accuracy. With our expert support, our simulation results help you to identify potential defects like air entrapments and ensuring desired aesthetics and functionality. They visualize material distribution throughout complex geometries, enabling optimization of gate locations and venting plans for consistent quality and dimensional stability. Transform your development workflow by virtually testing different pouring scenarios or different mold tilting angles before physical trials. Learn more: IP foaming simulation | Covestro
Simulation result of an instrument panel foaming process
8B9P6apZCTTLTmkNsB3_GE
https://asset-out-cdn.video-cdn.net/private/videos/8B9P6apZCTTLTmkNsB3_GE/thumbnails/1221727?quality=thumbnail&__token__=exp=1760187331~acl=/private/videos/8B9P6apZCTTLTmkNsB3_GE/thumbnails/1221727*~hmac=095c9271d510096895be4d22d3cd897401f611c2994c7730f1fc8cb8af8cec54
Bayfill Foaming Simulations.mp4
Our simulation accurately models the injection of liquid PU-reaction mixture and the pentane-driven expansion of the resulting polyurethane foam e.g. for refrigerator insulation. Explore various injection strategies considering single-point and multi-point injection with various output scenarios to optimize material distribution and evaluate the feasibility of foaming cabinet designs. The simulations help you identifying potential flow issues and density variations across complex cabinet geometries, ensuring consistent properties while minimizing material usage. We invite you to leverage our virtual prototyping capabilities while designing your product containing a molded PU-foam to prevent expensive production issues and to enable optimal product performance for enhanced consumer satisfaction.
Comparison of experiment vs. simulation of an refrigerator foaming process
FMjpauTc7vw-W1kT8SB_Na
https://asset-out-cdn.video-cdn.net/private/videos/FMjpauTc7vw-W1kT8SB_Na/thumbnails/1713409?quality=thumbnail&__token__=exp=1760187331~acl=/private/videos/FMjpauTc7vw-W1kT8SB_Na/thumbnails/1713409*~hmac=e7d886d98595358e1fee0a4fe60595c813ee25a8a2aa6ce56189b785343db3bb
Refridgerator SimulationVsReal_Video 3.mp4
Comparison of experiment vs. simulation of an refrigerator foaming process
Our simulation models polyurethane foam systems for EV battery cell encapsulation, predicting material flow around sensitive components, addressing critical safety and performance requirements unique to EV battery systems. The simulation enables you to optimize robot path for precise material application, enabling optimal coverage and foam distribution throughout complex battery pack geometries. By using our digital solution, you can identify potential flow issues and thermal hotspots during processing, enable stable battery production while minimizing material usage and weight.
Simulation result of an EV battery pack encapsulation foam process
5ChAsEobs_J4dniiiE9t7X
https://asset-out-cdn.video-cdn.net/private/videos/5ChAsEobs_J4dniiiE9t7X/thumbnails/1713453?quality=thumbnail&__token__=exp=1760187331~acl=/private/videos/5ChAsEobs_J4dniiiE9t7X/thumbnails/1713453*~hmac=d0bd31ea412138fb740d16b723b23a2cdc8dcbed60f2d4cadb30f15171c58dbe
Simulation EV Battery_Video 4.mp4
Simulation result of an EV battery pack encapsulation foam process
Our simulation accurately models rigid polyurethane foam systems in continuous production lines, predicting the complex interplay of material laydown, density evolution, and curing behavior throughout the production process. The simulations enable optimization of process conditions such as belt speed, laydown patterns, and temperature profile with the overarching goal to improve product properties and production efficiency. The simulation solution identifies potential issues like uneven rising and density, when virtually testing recipes and process parameters variations. Thus, ensuring product quality.
Simulation result of a continuous foaming process
CVZNmgNtbiVgzsVjfQ6ngN
https://asset-out-cdn.video-cdn.net/private/videos/CVZNmgNtbiVgzsVjfQ6ngN/thumbnails/1713479?quality=thumbnail&__token__=exp=1760187331~acl=/private/videos/CVZNmgNtbiVgzsVjfQ6ngN/thumbnails/1713479*~hmac=5d0c2ecd132f1145f655bd4e0cc6ff19410173990dfe0f454100ef4b8c78ea4b
DTB_video_Video 5.avi
Simulation result of a continuous foaming process
Our simulation models multicomponent polyurethane foam systems, predicting the interaction and weld line formation between different foam formulations with distinct properties. Leverage our visualization of the material flow, expansion behavior, and interface development throughout complex geometries to enable you that your product has the desired properties in the right place.
Simulation result of a simplified multicomponent foaming process
7Mfz8RJfNop9fZS1LjHTZh
https://asset-out-cdn.video-cdn.net/private/videos/7Mfz8RJfNop9fZS1LjHTZh/thumbnails/1713455?quality=thumbnail&__token__=exp=1760187331~acl=/private/videos/7Mfz8RJfNop9fZS1LjHTZh/thumbnails/1713455*~hmac=96724aa5c8bb1a3e8ed8943a9e598c5ac3383f1cccc71e01909078f86ca87d67
Simulation Headliner_Video 6.mpg
Simulation result of a simplified multicomponent foaming process
