Improving Damping Performance of Thermoplastic Composite Materials Through SMC-TPU Hybridization

IF 2.7 3区化学 Q2 POLYMER SCIENCE

Journal of Applied Polymer Science Pub Date : 2025-03-07 DOI:10.1002/app.56938

Carina Emminger, Andreas Kapshammer, Janos Birtha, Umut Cakmak, Jörg Fischer, Zoltan Major

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Abstract

This study investigates the mechanical and dynamic thermomechanical properties of thermoplastic sheet molding compounds (TP-SMC) combined with thermoplastic polyurethane (TPU) to enhance damping while maintaining structural integrity. The methodology uses SMC, a residual material from UD tape processing, to further enhance sustainability. By combining SMC with TPU, a hybrid material is created that merges the high stiffness of the composite with improved damping capabilities. The research explores the effect of varying TPU content (0%, 20%, 40%, and 60%) on composite properties. Results show that TPU incorporation significantly improves damping properties, with diminishing improvements observed beyond 40% TPU content. The glass transition temperature of the TPU defines the lower application limit of the composites, while lofting behavior, also influenced by the TPU content, defines the upper application limit. These SMC-TPU composites have potential in automotive and aerospace applications requiring vibration damping and robust performance. Future research should focus on optimizing manufacturing processes and exploring other thermoplastic matrices.

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SMC-TPU杂化改善热塑性复合材料阻尼性能

本文研究了热塑性薄板成型复合材料（TP-SMC）与热塑性聚氨酯（TPU）复合材料在保持结构完整性的同时增强阻尼的力学和动态热力学性能。该方法使用SMC， UD胶带加工的残余材料，以进一步提高可持续性。通过将SMC与TPU相结合，形成了一种混合材料，将复合材料的高刚度与改进的阻尼能力结合在一起。该研究探讨了不同TPU含量（0%、20%、40%和60%）对复合材料性能的影响。结果表明，TPU的加入显著改善了阻尼性能，但在TPU含量超过40%后，改善效果逐渐减弱。TPU的玻璃化转变温度决定了复合材料的应用下限，而放样行为决定了复合材料的应用上限，放样行为也受TPU含量的影响。这些SMC-TPU复合材料在需要减振和坚固性能的汽车和航空航天应用中具有潜力。未来的研究应集中在优化制造工艺和探索其他热塑性材料上。

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来源期刊

Journal of Applied Polymer Science 化学-高分子科学

CiteScore

5.70

自引率

10.00%

发文量

1280

审稿时长

2.7 months

期刊介绍： The Journal of Applied Polymer Science is the largest peer-reviewed publication in polymers, #3 by total citations, and features results with real-world impact on membranes, polysaccharides, and much more.