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金属材料电子显微分析

金属材料电子显微分析. 第一章 电子光学基础. 燕山大学材料科学与工程学院 材料现代分析测试方法课程教学团队 张静武教授 / 博导. 前言. 目的: TEM 、 SEM 、 EDS 分析金属 形貌 结构 缺陷 成分 内容:原理-仪器-应用 应用:文献-科技活动 / 毕业设计 - 基础 重点:电子衍射花样标定 衍衬像分析 扩充:高分辨 STEM TEM (Transmission Electron Microscope)

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金属材料电子显微分析

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  1. 金属材料电子显微分析 第一章 电子光学基础 燕山大学材料科学与工程学院 材料现代分析测试方法课程教学团队 张静武教授/博导

  2. 前言 目的:TEM、SEM、EDS分析金属 形貌 结构 缺陷 成分 内容:原理-仪器-应用 应用:文献-科技活动/毕业设计- 基础 重点:电子衍射花样标定 衍衬像分析 扩充:高分辨 STEM TEM (Transmission Electron Microscope) SEM (Scanning Electron Microscope) EDS (Energy Dispersive Spectrometry)

  3. 实验室的TEM SEM EDS JEOL-2010TEM H-800 TEM

  4. 牛津 EDS

  5. SEM S - 4800FE

  6. 形貌(SEM)

  7. 结构分析(TEM)

  8. 成分(EDS)

  9. 晶体缺陷(TEM)

  10. 综合分析

  11. 应用实例( 09年文献)

  12. Abstract The mechanical properties and microstructures of both symmetrically and asymmetrically rolled Al were investigated. The yield strength was ubstantially increased by an improved asymmetric rolling (ASR) process. Nearly equiaxed ultrafined grains with an average size less than 1μm were obtained through the improved ASR with a eduction of 90%. The incrostructure was homogeneous and high-angle boundaries were predominant. The results indicate that this ASR process can be considered as one of most the effective severe plastic deformation methods.

  13. 目的: TEM、SEM、EDS 形貌 结构 缺陷 成分 内容: 原理-仪器-应用 重点: 电子衍射花样标定 衍衬像分析 扩展: 其它分析方法(基础)

  14. 第一章 电子光学基础 • 电子波 • 磁透镜 • 像差 • 透镜分辨率 • 电磁透镜的景深和焦长 (电镜原理 - 其它基础)

  15. §1-1 电子光学基础 一、电子的波长(波-粒二象性)

  16. 电子的加速电压和波长

  17. B I v 二、电磁透镜

  18. f a b

  19. 像散 色差 球差 三、电磁透镜的像差

  20. 四、透镜的分辨率

  21. Df 观察 DL 照相 焦 长 五、电磁透镜的景深和焦长 α 景 深

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