Process Innovation for the Internal Coating of Carbon Fiber Reinforced Plastic (CFRP) Tubes via Thermal Spraying

International Thermal Spray Conference Pub Date : 2023-05-22 DOI:10.31399/asm.cp.itsc2023p0323

Christian Semmler, A. Killinger

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Abstract

The application of thermally sprayed coatings on CFRPs has gained great interest to enhance thermal and tribological properties and several processes have been optimized. However, for the coating of internal surfaces of tubes there is no sufficient technical solution. This paper introduces a novel and unique process technique for coating the internal surfaces of CFRP tubes using the transplantation of thermally sprayed coatings. A negative shape tube with defined surface and material properties was used as a mandrel and coated using atmospheric plasma spraying (APS). The CFRP was then produced using filament winding onto the coating, and after curing, the specimen was separated from the mandrel. With this process innovation, CFRP tubes with internal ceramic or metallic coatings can be produced without any thermal degradation of the polymeric matrix or damage to the carbon fibers. Compared to conventional coating methods, this novel process technique has several advantages. It allows for the production of internal coatings with low roughness of Rz = 10 μm as sprayed without post-processing. The specimens also have a significantly lower tendency to corrode compared to conventional coated CFRPs. A high adhesion strength of the coatings of 15.9 MPa was achieved and the hardness of the internal ceramic coating is 918 HV0.1

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热喷涂碳纤维增强塑料(CFRP)管内涂层工艺创新

热喷涂涂层在碳纤维复合材料上的应用为提高碳纤维复合材料的热性能和摩擦学性能带来了极大的兴趣，并对几种工艺进行了优化。然而，对于钢管内表面的涂层，目前还没有足够的技术解决方案。本文介绍了一种新颖而独特的CFRP管内表面热喷涂涂层移植的工艺技术。采用具有明确表面和材料性能的负形管作为芯轴，并采用大气等离子喷涂(APS)进行涂层处理。然后在涂层上缠绕长丝制成CFRP，固化后将试样与芯轴分离。通过这一工艺创新，可以生产具有内部陶瓷或金属涂层的CFRP管，而不会对聚合物基体产生任何热降解或损坏碳纤维。与传统的涂层方法相比，这种新工艺具有许多优点。它允许生产低粗糙度Rz = 10 μm的内部涂层，而无需后处理。与传统涂层cfrp相比，该试样也具有明显较低的腐蚀倾向。涂层的结合强度达到15.9 MPa，内部陶瓷涂层的硬度达到918 HV0.1

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International Thermal Spray Conference

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