史周琨,徐丽萍,张吉阜,肖根升,邓春明,宋进兵,刘敏,胡永俊,文魁.超音速火焰喷涂铝青铜涂层微动磨损行为[J].表面技术,2021,50(11):226-232, 278.
SHI Zhou-kun,XU Li-ping,ZHANG Ji-fu,XIAO Gen-sheng,DENG Chun-ming,SONG Jin-bing,LIU Min,HU Yong-jun,WEN Kui.Fretting Wear Behavior of Aluminum Bronze Coating by HVOF[J].Surface Technology,2021,50(11):226-232, 278
超音速火焰喷涂铝青铜涂层微动磨损行为
Fretting Wear Behavior of Aluminum Bronze Coating by HVOF
投稿时间:2020-11-30  修订日期:2021-05-10
DOI:10.16490/j.cnki.issn.1001-3660.2021.11.023
中文关键词:  铝青铜  铝合金  超音速火焰喷涂  微动磨损  磨损机制
英文关键词:aluminum bronze coating  aluminum alloy  HVOF  fretting wear  wear mechanism
基金项目:广东省重点领域研发计划项目(2020B010186002);广东特支计划(2019BT02C629);广州市重点领域研发计划项目(202007020008);广州市科技计划项目(201907010027);国家重点研发计划项目(2018YFB1502603)
作者单位
史周琨 广东工业大学 材料与能源学院,广州 510006;广东省科学院新材料研究所 现代材料表面工程技术国家工程实验室 广东省现代表面工程技术重点实验室,广州 510651 
徐丽萍 广东省科学院新材料研究所 现代材料表面工程技术国家工程实验室 广东省现代表面工程技术重点实验室,广州 510651 
张吉阜 广东省科学院新材料研究所 现代材料表面工程技术国家工程实验室 广东省现代表面工程技术重点实验室,广州 510651 
肖根升 中国航发湖南动力机械研究所,湖南 株洲 412002 
邓春明 广东省科学院新材料研究所 现代材料表面工程技术国家工程实验室 广东省现代表面工程技术重点实验室,广州 510651 
宋进兵 广东省科学院新材料研究所 现代材料表面工程技术国家工程实验室 广东省现代表面工程技术重点实验室,广州 510651 
刘敏 广东省科学院新材料研究所 现代材料表面工程技术国家工程实验室 广东省现代表面工程技术重点实验室,广州 510651 
胡永俊 广东工业大学 材料与能源学院,广州 510006 
文魁 广东省科学院新材料研究所 现代材料表面工程技术国家工程实验室 广东省现代表面工程技术重点实验室,广州 510651 
AuthorInstitution
SHI Zhou-kun School of Materia and Energy, Guangdong University of Technology, Guangzhou 510006, China;National Engineering Laboratory for Modern Materials Surface Engineering Technology, Guangdong Key Laboratory of Modern Surface Engineering Technology, Institute of New Materials, Guangdong Academy of Sciences, Guangzhou 510651, China 
XU Li-ping National Engineering Laboratory for Modern Materials Surface Engineering Technology, Guangdong Key Laboratory of Modern Surface Engineering Technology, Institute of New Materials, Guangdong Academy of Sciences, Guangzhou 510651, China 
ZHANG Ji-fu National Engineering Laboratory for Modern Materials Surface Engineering Technology, Guangdong Key Laboratory of Modern Surface Engineering Technology, Institute of New Materials, Guangdong Academy of Sciences, Guangzhou 510651, China 
XIAO Gen-sheng AECC Hunan Power Machinery Research Institute, Zhuzhou 412002, China 
DENG Chun-ming National Engineering Laboratory for Modern Materials Surface Engineering Technology, Guangdong Key Laboratory of Modern Surface Engineering Technology, Institute of New Materials, Guangdong Academy of Sciences, Guangzhou 510651, China 
SONG Jin-bing National Engineering Laboratory for Modern Materials Surface Engineering Technology, Guangdong Key Laboratory of Modern Surface Engineering Technology, Institute of New Materials, Guangdong Academy of Sciences, Guangzhou 510651, China 
LIU Min National Engineering Laboratory for Modern Materials Surface Engineering Technology, Guangdong Key Laboratory of Modern Surface Engineering Technology, Institute of New Materials, Guangdong Academy of Sciences, Guangzhou 510651, China 
HU Yong-jun School of Materia and Energy, Guangdong University of Technology, Guangzhou 510006, China 
WEN Kui National Engineering Laboratory for Modern Materials Surface Engineering Technology, Guangdong Key Laboratory of Modern Surface Engineering Technology, Institute of New Materials, Guangdong Academy of Sciences, Guangzhou 510651, China 
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中文摘要:
      目的 改善铝合金的抗微动磨损性能。方法 采用超音速火焰喷涂技术在ZL114A铝合金表面制备铝青铜涂层,在不同温度(25、200、300 ℃)下对有、无涂层的ZL114A铝合金样品进行微动磨损测试,通过对涂层性能和磨痕形貌进行表征分析,探索铝青铜涂层的抗磨损性能。结果 铝青铜涂层均匀致密,与铝合金基体结合良好,显微硬度为279HV0.3,结合强度为74 MPa。不同温度(25、200、300 ℃)下,涂覆铝青铜涂层样品的平均微动摩擦系数分别为0.898、0.886、0.744,磨损率分别为10.249×107、0.035×107、0.207×107 m3/(N.m),相比基体的平均微动摩擦系数和磨损率,3种温度下分别下降了34.5%、42.9%和58.9%。对磨痕的形貌和三维轮廓的分析表明,在25、200、300 ℃下,铝青铜涂层的磨损机制不相同,25 ℃下为磨粒磨损和剥层,200 ℃下为磨粒磨损、剥层、氧化磨损和粘着磨损,300 ℃下为塑性变形、氧化磨损和粘着磨损。结论 制备的铝青铜涂层改善了基体的抗微动磨损性能。
英文摘要:
      In order to improve the fretting wear resistance of aluminum alloy, aluminum bronze coating was prepared on the surface of aluminum alloy by HVOF. The fretting wear tests of ZL114A aluminum alloy with and without coating were carried out at different temperatures (25, 200, 300 ℃). The coating properties and wear morphology were characterized and analyzed to explore the anti-wear performance of aluminum bronze coating. The uniform and compact aluminum bronze coating had a good combination with the aluminum alloy substrate and its microhardness was 279HV0.3 and bonding strength was 74 MPa. At 25, 200 and 300 ℃, the average fretting friction coefficient of aluminum bronze coating was 0.898, 0.886 and 0.74 respectively. The wear rate of substrate and aluminum bronze coated aluminum alloy was 10.249×10–7, 0.035×10–7 and 0.207×10–7 m3/(N.m). Compared with the aluminum alloy substrate, the average fretting friction coefficient of aluminum bronze coated aluminum alloy at 25, 200 and 300 ℃ decreased by 34.5%, 42.9% and 58.9% respectively. Through the observation and analysis for the morphology and the three-dimensional profile of the wear scars, it is found that the wear mechanism of the aluminum bronze coating was different at 25, 200 and 300 ℃. The wear mechanism of the aluminum bronze coating was the abrasive and peeling wear at room temperature. The abrasive wear, peeling, oxidative and adhesive wear occurred at 200 ℃. Plastic deformation, oxidative wear and adhesive wear occurred at 300 ℃. Therefore, the prepared al-bronze coating can improve the fretting wear resistance of the substrate.
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