MATHEMATICAL MODELING OF OPERATION OF THE PALLET CARS’ GRATE BARS MADE OF STEEL 40Kh24N12SL

Q3 Materials Science
D. Ivanov, A. A. Kozhukhov, V. А. Sklyar
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引用次数: 0

Abstract

To determine the reasons that decrease life of the grate bars of pellet cars from steel 40Kh24N12SL during the operation, a compara­tive analysis of the results of macro-investigations of the grate bars af­ter operation with the results of modeling the operating conditions for the grate was performed. The modeling of the operating conditions was carried out using the finite element method, which allowed achieving high reliability of the obtained results. For the reliability of the model­ing results, the maximum possible number of boundary modeling con­ditions was obtained, obtained from both macro-examples conducted earlier and from the scientific literature. The application of the finite element method made it possible to determine that a high temperature gradient with local overheating zones is formed along the section of the component. It is shown that the nature of overheating is predictable and is related to the conditions of the coolant supply to the working area during operation of the part. It is established that zones with large values of internal stresses and deformations are locally formed during operation. The regularity of appearance of these zones is shown, which highly dependents on the presence of inhomogeneities in the structure of the part, and is also supposedly related to geometric complexity of the casting. It is also established that in the presence of shrinkage shells, all values of stresses and deformations increase sharply, espe­cially in local maximums. In this case, the distribution of local zones with high stresses and deformations in the presence of shrinkage shells remains practically unchanged. An analysis of the location of zones with high stresses and strains made it possible to explain the existing principle of the destruction of the grate by cracking during operation. It is proved that one of the main causes of buckling, cracking and fracture of the grates of the pellet cars made of steel 40Kh24N12SL is the pres­ence of shrinkage shells in the metal structure. As a result of modeling the operating conditions, mechanism of the occurrence of buckling, cracking and fracture of the grates of steel 40Kh24N12SL during op­eration is described, which completely coincides with the results of macro-investigations and observations obtained during operation.
40Kh24N12SL钢托盘车篦栅运行的数学建模
为确定40Kh24N12SL钢颗粒车篦条在运行过程中寿命下降的原因,对运行后篦条的宏观调查结果与篦条运行工况建模结果进行了对比分析。采用有限元方法对工况进行建模,使所得结果具有较高的可靠性。为了保证建模结果的可靠性,从前面进行的宏观算例和科学文献中获得了边界建模条件的最大可能数。有限元方法的应用使得确定沿构件截面形成具有局部过热区的高温梯度成为可能。结果表明,过热的性质是可预测的,并且与零件运行时工作区域的冷却剂供应条件有关。结果表明,在运行过程中局部形成了较大的内应力和变形区。这些区域外观的规律性被显示出来,这高度依赖于零件结构中不均匀性的存在,并且也被认为与铸造的几何复杂性有关。还确定,在存在收缩壳的情况下,应力和变形的所有值都急剧增加,特别是在局部最大值处。在这种情况下,在存在收缩壳的情况下,具有高应力和变形的局部区域的分布几乎保持不变。对高应力应变区位置的分析,可以解释炉篦在运行过程中开裂破坏的现有原理。结果表明,40Kh24N12SL钢颗粒车格栅屈曲、开裂、断裂的主要原因之一是金属结构中存在缩孔壳。通过对运行工况的模拟,描述了40Kh24N12SL钢格栅在运行过程中发生屈曲、开裂和断裂的机理,与运行过程中的宏观调查和观察结果完全吻合。
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来源期刊
Izvestiya Vysshikh Uchebnykh Zavedenij. Chernaya Metallurgiya
Izvestiya Vysshikh Uchebnykh Zavedenij. Chernaya Metallurgiya Materials Science-Materials Science (miscellaneous)
CiteScore
0.90
自引率
0.00%
发文量
81
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