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Large Area Stress Distribution in Crystalline Materials Calculated from Lattice Deformation Identified by Electron Backscatter Diffraction

机译：由电子反向散射衍射确定的晶格变形计算出的晶体材料中的大面积应力分布

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We report a method to obtain the stress of crystalline materials directly from lattice deformation by Hooke's law. The lattice deformation was calculated using the crystallographic orientations obtained from electron backscatter diffraction (EBSD) technology. The stress distribution over a large area was obtained efficiently and accurately using this method. Wurtzite structure gallium nitride (GaN) crystal was used as the example of a hexagonal crystal system. With this method, the stress distribution of a GaN crystal was obtained. Raman spectroscopy was used to verify the stress distribution. The cause of the stress distribution found in the GaN crystal was discussed from theoretical analysis and EBSD data. Other properties related to lattice deformation, such as piezoelectricity, can also be analyzed by this novel approach based on EBSD data.

机译：我们报告了一种通过霍克定律直接从晶格变形中获得晶体材料应力的方法。使用从电子背散射衍射（EBSD）技术获得的晶体学取向计算晶格变形。使用此方法可以有效而准确地获得大面积的应力分布。纤锌矿型结构的氮化镓（GaN）晶体用作六方晶体系统的示例。通过这种方法，获得了GaN晶体的应力分布。拉曼光谱法用于验证应力分布。通过理论分析和EBSD数据讨论了GaN晶体中应力分布的原因。还可以通过这种基于EBSD数据的新颖方法来分析与晶格变形相关的其他属性，例如压电性。

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期刊名称 Scientific Reports
作者
Yongliang Shao; Lei Zhang; Xiaopeng Hao; Yongzhong Wu; Yuanbin Dai; Yuan Tian; Qin Huo;
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年(卷),期 -1(4),-1
年度 -1
页码 5934
总页数 5
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1. Large Area Stress Distribution in Crystalline Materials Calculated from Lattice Deformation Identified by Electron Backscatter Diffraction [J] . Yongliang Shao, Lei Zhang, Xiaopeng Hao, Scientific reports. . 2014,第1期

机译：由电子反向散射衍射确定的晶格变形计算出的晶体材料中的大面积应力分布
2. Large Area Stress Distribution in Crystalline Materials Calculated from Lattice Deformation Identified by Electron Backscatter Diffraction [J] . Yongliang Shao, Lei Zhang, Xiaopeng Hao, Scientific reports. . 2014,第1期

机译：由电子反向散射衍射确定的晶格变形计算出的晶体材料中的大面积应力分布
3. Dark-field imaging based on post-processed electron backscatter diffraction patterns of bulk crystalline materials in a scanning electron microscope [J] . Brodusch Nicolas, Demers Hendrix, Gauvin Raynald Ultramicroscopy . 2015,第Null期

机译：扫描电子显微镜中基于块状晶体材料的后处理电子反向散射衍射图样的暗场成像
4. The Weighted Burgers Vector: a quantity for constraining dislocation densities and types using Electron Backscatter Diffraction on 2D sections through crystalline materials [C] . Wheeler J., Mariani E., Piazolo S., Recrystallization and grain growth IV. . 2010

机译：加权Burgers向量：用于通过晶体材料对2D截面使用电子背散射衍射来限制位错密度和类型的量
5. Digital image correlation of heterogeneous deformations in polycrystalline material with electron backscatter diffraction. [D] . Esquivel, Javier. 2014

机译：电子背散射衍射的多晶材料中非均匀变形的数字图像相关性。
6. Electron Backscattered Diffraction to Estimate Residual Stress Levels of a Superalloy Produced by Laser Powder Bed Fusion and Subsequent Heat Treatments [O] . Mathieu Terner, Jiwon Lee, Giulio Marchese, 2020

机译：电子反向散射衍射以估计激光粉末融合和随后的热处理生产的超合金的残余应力水平
7. Large Area Stress Distribution in Crystalline Materials Calculated from Lattice Deformation Identified by Electron Backscatter Diffraction [O] . Yongliang Shao, Lei Zhang, Xiaopeng Hao, 2014

机译：通过电子反向散射衍射识别的晶格变形计算的晶体材料的大面积应力分布

Large Area Stress Distribution in Crystalline Materials Calculated from Lattice Deformation Identified by Electron Backscatter Diffraction

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