高铝青铜磷光复合冷喷涂层的发光及摩擦磨损性能

表面技术 , 2015, (8): 31-37. doi: 10.16490/j.cnki.issn.1001-3660.2015.08.006

高铝青铜磷光复合冷喷涂层的发光及摩擦磨损性能

杜连超 ^1, , 李文生 ^2, , 何玲 ^3, , 杨效田 ^4, , 吕叶 ^5, , 王福全 ^6, , 安国升 ^7, , 冯力 ^8,

1.兰州理工大学有色金属先进加工与再利用国家重点实验室,兰州,730050

2.兰州理工大学有色金属先进加工与再利用国家重点实验室,兰州,730050

3.兰州理工大学有色金属先进加工与再利用国家重点实验室,兰州,730050

4.兰州理工大学有色金属先进加工与再利用国家重点实验室,兰州,730050

5.兰州理工大学有色金属先进加工与再利用国家重点实验室,兰州,730050

6.兰州理工大学有色金属先进加工与再利用国家重点实验室,兰州,730050

7.兰州理工大学有色金属先进加工与再利用国家重点实验室,兰州,730050

8.兰州理工大学有色金属先进加工与再利用国家重点实验室,兰州,730050

基金项目: The Project in Cooperation with the British Royal Institute of the National Natural Science Foundation of China(51211130116) 中国科学院西部之光计划(01-0526) West Light Foundation of the Chinese Academy of Sciences(01-0526) 国家自然基金与英国皇家学会交流项目(51211130116)Fund:Supported by Key Program for International S&T Cooperation Projects of China(2013DFR50790) 甘肃省杰出青年基金资助项目(1111RJDA013) 国家国际科技合作项目(2013DFR50790) the Gansu Province Outstanding Youth Fund(1111RJDA013)

关键词：高铝青铜 , 磷光粒子 , 复合涂层 , 发光性能 , 摩擦磨损

Luminescence and Wear Properties of Cold Sprayed Cu-14 Al-X/Phosphorescence Composite Coating

Keywords： Cu-14Al-X , phosphorescence particle , composite coating , luminescence property , friction and wear

目的：将耐磨材料、涂层制备技术以及磷光粒子的指示功能结合，发展一种简便经济的涂层监测技术。方法采用冷喷涂技术在T3紫铜基体上制备高铝青铜涂层及高铝青铜磷光复合涂层，利用SEM、EDS及荧光分光光度计等观察冷喷涂层的形貌，分析发光粒子的分布及涂层发光性能，并在室温条件下采用CSM往复式摩擦磨损试验机对干摩擦条件下涂层的摩擦磨损特性进行测试和分析。结果磷光粒子均匀分布在复合涂层中。涂层有较好的发光性能，经紫外线激发后发出裸眼可识别的黄绿光。磷光粒子的添加提高了高铝青铜磷光复合涂层的硬度，涂层摩擦表面磨痕较浅，呈轻微磨粒磨损特征，而高铝青铜涂层摩擦表面发生严重塑性变形，有剥落块及磨屑粘附在磨痕表面，呈粘着、疲劳磨损特征。结论磷光粒子的添加提高了复合涂层的抗磨性。磨损后的磷光复合涂层经紫外灯照射后，无荧光现象发生，能够实现检测涂层存在与否的功能。

ABSTRACT:Objective To combine the wear-resistant materials, coating preparation technology and the indication function of phosphor particles, and develop a simple and economic coating monitoring technology. Methods A Cu-14Al-X coating and a com-posite coating of Cu-14Al-X and SrAl2 O4:Eu2+,Dy3+phosphorescence particle were prepared on T3 copper substrate by cold gas dy-namic spray. SEM, EDS and fluorescence spectrophotometer were employed to observe the morphology of coatings and analyze the distribution and luminescent intensity of the embedded particles. Reciprocating friction and wear tester was used to evaluate the friction properties of the coatings under dry sliding condition at room temperature. Results Phosphor particles distributed homoge-nously in the cold sprayed Cu-14Al-X/phosphorescence composite coating. Under ultraviolet light, a strong luminescence was visi-ble in yellow-green light. The micro-hardness increased with the increased dose of phosphorescence particles. A shallow track was observed on the worn Cu-14Al-X/phosphorescence composite coating, which indicated a slight abrasive wear occurred during the sliding process. For the Cu-14Al-X coating, intense plastic deformation, adhesion of small drop-cuts and abrasive dusts were ob-served on the worn surface, abrasive and fatigue wears dominated in the sliding process. Conclusion The addition of phosphor par-ticles improved the wear-resistance performance of composite coating. Under ultraviolet light, no luminescence was visible on the worn Cu-14Al-X/phosphorescence composite coating, realizing the function of detecting the existence of coating.

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