Research Paper#Machine Learning, Solid Rocket Motor Design, Strain Field Prediction🔬 ResearchAnalyzed: Jan 3, 2026 18:49
GrainGNet for Strain Field Prediction in Rocket Motors
Published:Dec 29, 2025 13:02
•1 min read
•ArXiv
Analysis
This paper addresses a critical problem in solid rocket motor design: predicting strain fields to prevent structural failure. The proposed GrainGNet offers a computationally efficient and accurate alternative to expensive numerical simulations and existing surrogate models. The adaptive pooling and feature fusion techniques are key innovations, leading to significant improvements in accuracy and efficiency, especially in high-strain regions. The focus on practical application (evaluating motor structural safety) makes this research impactful.
Key Takeaways
- •Proposes GrainGNet, an adaptive graph network for 3D strain field prediction.
- •Employs adaptive pooling and feature fusion for improved accuracy and efficiency.
- •Achieves significant performance gains compared to baseline models.
- •Specifically improves prediction accuracy in high-strain regions.
- •Offers a computationally efficient approach for evaluating motor structural safety.
Reference
“GrainGNet reduces the mean squared error by 62.8% compared to the baseline graph U-Net model, with only a 5.2% increase in parameter count and an approximately sevenfold improvement in training efficiency.”