Evaluation of approaches to predicting the properties of synthetic cast iron in foundry production

Metaloznavstvo ta obrobka metaliv Pub Date : 2023-06-30 DOI:10.15407/mom2023.02.024

К. Sirenko, V. Mazur

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Abstract

An overview of approaches to assessing the dependence of the mechanical properties of products made of synthetic iron smelted in induction crucible furnaces on the content of carbon and the content of silicon in its chemical composition, as well as on the carbon equivalent, the degree of eutecticity, and the ratio of the carbon content to the silicon content is given. The statistical parameters of the percentage distributions of the specified elements in the chemical composition of cast irons with lamellar graphite produced in accordance with the requirements of DSTU 8833-2019 were analyzed. The values of the carbon equivalent of the chemical state of these cast irons and the values of their degree of eutecticity were calculated according to common formulas for determining these indicators using the Monte Carlo method and using a probabilistic approach taking into account the content of each element in the chemical composition of cast iron. It is emphasized that, from a probabilistic point of view, the values of the carbon equivalent and the degree of eutecticity may not coincide in different batches of cast iron, even with the same values of the percentage content of chemical elements in its composition. It is shown that with an increase in the carbon equivalent and the degree of eutecticity, the strength and hardness of cast iron produced in accordance with DSTU 8833-2019 decrease. As the carbon content and carbon equivalent increase, the ratio of carbon content to silicon content decreases. In industrial batches of cast iron brake pads and «Khanin wedge» manufactured in accordance with GOST 30249-97 and GOST 34503-2018, the hardness of these products does not depend on the carbon equivalent due to the small range of the carbon equivalent values. Keywords: foundry products, cast iron, chemical composition, carbon equivalent, ratio of carbon content to silicon content, degree of eutecticity, hardness, strength

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铸造生产中合成铸铁性能预测方法的评价

综述了评价感应坩埚炉冶炼合成铁制品力学性能与化学成分中碳、硅含量、碳当量、共晶度和碳硅比的关系的方法。对按DSTU 8833-2019要求生产的层状石墨铸铁化学成分中指定元素百分比分布的统计参数进行了分析。这些铸铁的化学状态的碳当量的值和它们的共晶度的值是根据确定这些指标的通用公式，使用蒙特卡罗方法和使用概率方法，考虑到铸铁的化学成分中每种元素的含量。要强调的是，从概率的观点来看，在不同批次的铸铁中，碳当量和共晶度的值可能不一致，即使其组成中化学元素的百分比含量的值相同。结果表明，随着碳当量和共晶度的增加，按照DSTU 8833-2019生产的铸铁的强度和硬度降低。随着碳含量和碳当量的增加，碳硅比减小。在根据GOST 30249-97和GOST 34503-2018生产的铸铁刹车片和“可宁楔”的工业批次中，由于碳当量值的范围较小，这些产品的硬度不依赖于碳当量。关键词:铸造制品，铸铁，化学成分，碳当量，碳硅比，共晶度，硬度，强度

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Metaloznavstvo ta obrobka metaliv

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8 weeks