X-Ray Diffraction Study on the Strain Anisotropy and Dislocation Structure of Deformed Lath Martensite

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X-Ray Diffraction Study on the Strain Anisotropy and Dislocation Structure of Deformed Lath Martensite

机译：X射线衍射研究变形板条马氏体的应变各向异性和位错结构

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18Ni (300) maraging steel possessing lath martensite structure was deformed by four passes of equal-channel angular pressing (ECAP) at ambient temperature. Line profile analysis (LPA) of X-ray diffraction (XRD) patterns identified strong strain anisotropy and remarkable increases in the relative fraction of screw dislocations after ECAP. The strain anisotropy was reasonably accounted for by the anisotropy of elastic constants. Domination of screw dislocations in the deformed structure was attributed to the preferred annihilation of edge dislocations in the early stages of deformation along with the difficulties for annihilation of screw dislocations by cross slipping. Cobalt addition was mainly assumed to make cross slipping difficult by reducing stacking-fault energy and favoring short-range ordering.

机译：具有板条马氏体组织的18Ni（300）马氏体时效钢在环境温度下通过四道等通道角挤压（ECAP）变形。 X射线衍射（XRD）模式的线轮廓分析（LPA）确定了强应变各向异性，并且在ECAP后，螺钉位错的相对分数显着增加。应变各向异性是由弹性常数的各向异性合理地解释的。变形结构中的螺丝位错占主导地位，归因于变形初期的边缘位错的优选an没，以及由于交叉滑动而使螺丝位错消失的困难。主要假设添加钴会降低堆垛层错能量并有利于短程排序，从而使交叉打滑变得困难。

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《Metallurgical and Materials Transactions A》 |2011年第8期|p.2493-2497|共5页
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1. X-Ray Diffraction Study on the Strain Anisotropy and Dislocation Structure of Deformed Lath Martensite [J] . S. HOSSEIN NEDJAD, F. HOSSEINI NASAB, M.R. MOVAGHAR GARABAGH Metallurgical and Materials Transactions, A. Physical Metallurgy and Materials Science . 2011,第8期

机译：变形板条马氏体应变各向异性和位错结构的X射线衍射研究
2. Dislocation structure and crystallite size distribution in lath martensite determined by X-ray diffraction peak profile analysis [J] . S. Hossein Nedjad, M.-R. Movaghar Gharabagh Zeitschrift fur Metallkunde . 2008,第11期

机译：X射线衍射峰轮廓分析确定板条马氏体的位错结构和晶粒尺寸分布
3. Determination of dislocation density by electron backscatter diffraction and X-ray line profile analysis in ferrous lath martensite [J] . Berecz Tibor, Jenei Peter, Csore Andras, Materials Characterization . 2016,第Null期

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6. Lath formation mechanisms and twinning as lath martensite substructures in an ultra low-carbon iron alloy [O] . D. H. Ping, S. Q. Guo, M. Imura, -1

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7. Work Hardening, Dislocation Structure, and Load Partitioning in Lath Martensite Determined by In Situ Neutron Diffraction Line Profile Analysis [O] . Harjo, Stefanus, Kawasaki, Takuro, Tomota, Yo, 2018

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X-Ray Diffraction Study on the Strain Anisotropy and Dislocation Structure of Deformed Lath Martensite

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