SrAl2O4-based mechanoluminescent coatings for visualization of friction force and cavitation erosion
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稿件编号:61 访问权限:仅限参会人
更新:2024-10-13 21:52:30
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摘要
Anti-erosion erosion and wear-resistant protective coatings applied to the surfaces of fluid machinery are widely used in high-tech industries such as aerospace and shipping. Without real-time monitoring methods, any failure of these protective coatings directly threatens the safe operation of equipment and components. This study designs a functional SrAl2O4:Eu2+, Dy3+ coating using atmospheric plasma spraying technology, which can emit light under external forces exceeding 81.2 MPa. For example, it can produce visible green light during cavitation erosion when bubbles implode or under friction during contact. Therefore, embedding this coating under the protective layer has the potential to predict failures. The research also found that the mechanoluminescent properties of the functional coating is easily affected by lattice defects, amorphous phases, and the oxidation states of europium ions. After vacuum thermal reduction treatment, this functional coating is more sensitive to friction, micro-jets, and shock waves, and can differentiate stress variations through light brightness. Later, after applying a polyurethane coating on its surface, when the polyurethane encounters cavitation erosion and its thickness is only about 0.1 mm, this functional coating will light up to signal that the polyurethane layer is about to fail. If the protective coating is repaired in time, the mechanoluminescent coating can be reused multiple times. Thus, this work provides a mechanoluminescent coating that can emit light under cavitation erosion or friction, offering a method for monitoring of when protective coatings might fail.
关键字
erosion erosion,mechanoluminescent coating,real-time monitoring
稿件作者
Yuli Wu
Lanzhou Institute of Chemical Physics, Chinese Academy of Sciences
Hui Zhou
Lanzhou Institute of Chemical Physics, Chinese Academy of Sciences
Guoliang Hou
Lanzhou Institute of Chemical Physics, Chinese Academy of Sciences
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