| 张雨生,由晓明,何箐.8YSZ 团聚粉体压溃强度
及其对 PS-PVD 沉积行为的影响研究[J].热喷涂技术,2022,14(3):46~57. |
| 8YSZ 团聚粉体压溃强度
及其对 PS-PVD 沉积行为的影响研究 |
| Study on Crushing Strength of 8YSZ Agglomerated Powdersand its Effect on PS-PVD Deposition Behavior |
| |
| DOI:DOI 10.3969/j.issn.1674-7127.2022.03-006 |
| 中文关键词: PS-PVD 热障涂层 粉体 压溃强度 |
| 英文关键词:PS-PVD Thermal barrier coating Powder Crushing strength |
| 基金项目: |
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| 摘要点击次数: 108 |
| 全文下载次数: 130 |
| 中文摘要: |
| 等离子物理气相沉积 (PS-PVD) 作为一种热障涂层新型制备技术, 受到国内外的广泛关注。 PS-PVD 工艺
采用细小球形团聚粉体为原料, 原料在高温高速等离子射流中瞬时加热 - 熔融 - 气化, 这一复杂过程中粉体 - 等
离子体射流相互作用机理尚未完全揭示, 特别是粉体颗粒在高温高速射流中快速溃散气化过程研究较少。 本文研
究了细小球形团聚粉体的压溃强度测试方法, 进而对不同粘结剂类型、 含量、 不同颗粒尺寸的粉体压溃强度进行
表征, 研究了粉体特性对压溃强度影响规律, 并系统分析了粉体沉积效果。 结果表明, 随着粉体颗粒尺寸的增大,
其压溃强度呈现逐步降低趋势, 不同特性粉体趋势不同; 粘结剂类型变化、 特别是一定含量纳米尺度颗粒的存在,
会增大粉体压溃强度, 一定范围内粉体压溃强度越高, 涂层沉积速率越高。 |
| 英文摘要: |
| Plasma Spray-Physical Vapor Deposition (PS-PVD), as a new preparation technology of thermal
barrier coatings, has attracted extensive attention at home and abroad. The PS-PVD process uses fine spherical
agglomerated powders as material, and the raw materials are instantaneously heated, melted and vaporized in
high temperature and high speed plasma jet. The mechanism of the powder plasma jet interaction in this complex
process has not been fully revealed .In particular, there is little research on the rapid collapsing gasification process
of powder particles in high temperature and high speed jet. In this paper, the test method of crushing strength of
fine spherical agglomerated powder was studied, and then the crushing strength of powder with different binder
types, contents and particle sizes were characterized, the influence of powder characteristics on crushing strength
were investigated, and the effect of powder deposition was systematically analyzed. The results showed that with
the increase of the particle size of the powder, the crushing strength of the powder gradually decreased, and the
trend of powder with different characteristics was different; the type of binder, especially the existence of a certaincontent of nano-scale particles, would increase the crushing strength of the powder. The higher the crushing
strength of the powder within a certain range, the higher the deposition rate of the coating. |
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