X-ray diffraction (XRD) was used to study the structure of the organic crystallite unit (La, Lo doo2) in coals collected from Henan and Shanxi Provinces. XRD patterns of coal were collected in a step-scan mode (0...X-ray diffraction (XRD) was used to study the structure of the organic crystallite unit (La, Lo doo2) in coals collected from Henan and Shanxi Provinces. XRD patterns of coal were collected in a step-scan mode (0.1 °/step) over an angular range of 2-90° (20), allowing 8 s at each step. The structure of the crystallite unit was determined from the Scherrer equation and peak parameters deduced from whole pattern fitting. The results show that the structure of the crystallite unit in coal is mainly controlled by the coal rank. As the coal rank increases the average diameter of a coal crystallite unit (La) increases, the interlayer spacing (doo2) decreases slightly, and the average height of a coal crystallite unit (Lc) increases at first but then decreases. A new diffraction peak from the crystallite unit in coal was found at a low scattering angle in the XRD pattern (2-10~). This suggests a structure with an inter-layer spacing from 1.9 to 2.8 nm exists in coal crystallites.展开更多
文摘利用等离子体电解氧化技术在铝合金6063表面生成了氧化物陶瓷膜.测试了氧化膜表面厚度和硬度,观察了膜层表面形貌,分析了氧化陶瓷膜的成分,探讨了不同电流密度对形成陶瓷膜厚度和硬度的影响.结果表明:铝合金6063表面陶瓷膜的厚度和硬度随电流密度的增大而提高,但有一极限值平均电流密度极限值为25 A/dm2.;随氧化时间的延长而增厚增硬,但也有一极限值,氧化时间极限值为45 min.
基金supported in part by Program for New Century Excellent Talents in University of China (No. NCET-10-0133)Innovation Scientists and Technicians Troop Construction Projects of Henan Province (No. 114100510004)
文摘X-ray diffraction (XRD) was used to study the structure of the organic crystallite unit (La, Lo doo2) in coals collected from Henan and Shanxi Provinces. XRD patterns of coal were collected in a step-scan mode (0.1 °/step) over an angular range of 2-90° (20), allowing 8 s at each step. The structure of the crystallite unit was determined from the Scherrer equation and peak parameters deduced from whole pattern fitting. The results show that the structure of the crystallite unit in coal is mainly controlled by the coal rank. As the coal rank increases the average diameter of a coal crystallite unit (La) increases, the interlayer spacing (doo2) decreases slightly, and the average height of a coal crystallite unit (Lc) increases at first but then decreases. A new diffraction peak from the crystallite unit in coal was found at a low scattering angle in the XRD pattern (2-10~). This suggests a structure with an inter-layer spacing from 1.9 to 2.8 nm exists in coal crystallites.
