长期运行时,将碳原子重新分配为微淬火轨道

Виктор Евгеньевич Громов, А. А. Юрьев, Ю.Ф. Иванов, В. А. Гришунин, С.В. Коновалов
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引用次数: 1

摘要

采用透射电镜方法,在距轧制面不同距离沿中轴线,研究了差硬钢轨总重通过吨位后,其头部组织、相组成及缺陷亚结构的变化。结果表明,钢轨的长时间运行伴随着渗碳体的切割和渗碳体的溶蚀两个同时发生的板-珠光体菌落组织和相组成的变化过程。第一个过程是通过切削硬质合金颗粒并去除其碎片的机制进行的,仅伴随其线性尺寸和形态的变化。第二种破坏渗碳体板的方法是将渗碳体晶格中的碳原子留在位错上,从而使轨道金属的相变成为可能。这是由于碳原子与位错(0.6 eV)和渗碳体晶格中铁原子(0.4 eV)结合的平均能明显弛豫所致。考虑了渗碳体板的相变阶段:被滑移位错包裹并分裂成弱取向碎片;滑移位错从铁素体晶格渗透到渗碳体晶格中;渗碳体溶解并形成纳米级颗粒。铁素体基体中存在纳米渗碳体颗粒,由于它们在位错滑动过程中被去除。利用现代物理材料学的表达式和x射线衍射分析,估计了碳原子含量对钢轨钢结构元素的影响。结果表明,钢轨的长时间运行伴随着表层碳原子的重分布。在初始状态下,碳原子的主要数量集中在渗碳体颗粒中,在钢轨长期运行后,碳与渗碳体颗粒一起分布在钢的晶体结构缺陷(位错、晶界和亚晶)中,在钢原子的表层,碳也存在于以α-铁为基的晶格中。
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ПЕРЕРАСПРЕДЕЛЕНИЕ АТОМОВ УГЛЕРОДА В ДИФФЕРЕНЦИРОВАННО ЗАКАЛЕННЫХ РЕЛЬСАХ ПРИ ДЛИТЕЛЬНОЙ ЭКСПЛУАТАЦИИ
Using  transmission  electron  microscopy  methods  at  various  distances from the rolling surface along the central axis, changes in  structure, phase composition, and defective substructure of the head  of differentially hardened rails were studied after passed tonnage of  691.8  million tons of gross weight. It is confirmed that prolonged  operation of rails is accompanied by two simultaneous processes of  transformation of structure and phase composition of plate-pearlite  colonies: cutting of cementite plates and dissolution of cementite  plates. The first process is carried out by mechanism of cutting carbide  particles and removing their fragments, accompanied only by change  in their linear dimensions and morphology. The second process of  dest ruction of the cementite plates of perlite colonies is carried out by  leaving carbon atoms from crystalline lattice of cementite on dislocation, as a result of which phase transformation of rails metal is possible. This is due to a noticeable relaxation of mean energy of carbon  atom  s binding to dislocations (0.6  eV) and to iron atoms in cementite  lattice (0.4  eV). The stages of transformation of cementite plates are  considered: enveloping the plates with sliding dislocations and then  splitting them into weakly oriented fragments; penetration of sliding  dislocations from ferrite lattice into lattice of cementite; dissolution of  cementite and formation of nanoscale particles. The presence of nanosized cementite particles in ferrite matrix is noted due to their removal  during dislocation slide. Using expressions of modern physical materials science and X-ray diffraction analysis, influence of content of  carbon atoms on structural elements of rail steel was estimated. It is  shown that prolonged operation of rails is accompanied by a significant  redistribution of carbon atoms in surface layer. In the initial state, the  main quantity of carbon atoms is concentrated in cementite particles,  and after a long operation of rails, along with cementite particles, carbon is located in defects of crystal structure of steel (dislocation, grain  boundaries and subgrains), and in the surface layer of steel atoms carbon is also found in crystal lattice based on α-iron.
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Izvestiya Vysshikh Uchebnykh Zavedenij. Chernaya Metallurgiya
Izvestiya Vysshikh Uchebnykh Zavedenij. Chernaya Metallurgiya Materials Science-Materials Science (miscellaneous)
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81
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