ННІ "Дніпровський металургійний інститут" (ДМетІ)
Permanent URI for this community
ENG: Dnipro Metallurgical Institute
Browse
Browsing ННІ "Дніпровський металургійний інститут" (ДМетІ) by Author "Aftandiliants, Y."
Now showing 1 - 4 of 4
Results Per Page
Sort Options
Item Influence of Melt Properties on the Dendritic Structure of Steel Castings(The Katowice Branch of the Polish Academy of Sciences, Poland, 2024) Aftandiliants, Y.; Gnyloskurenko, S.; Meniailo, Helena V.; Khrychikov, Valerii Ye.ENG: The paper presents the experimental results on the determination of melt parameters such as the energy of the boundary, contact angle, density and kinematic viscosity of low and medium alloy steels at different temperatures, as well as the dispersion of their dendritic structure in solidified castings. The analysis of the data obtained allowed revealing using mathematical models the influence of the chemical composition and temperature of melts on their properties and the dendritic structure of castings. It was established the variation of the melt parameters depending on the particular chemical elements of steels as C, Si, Mn, O, P, V, Cr. The established analytical dependences shown that increasing density and viscosity contributes to the dispersion of the dendritic structure and viscosity is of the major effect. The derived quantitative patterns allows to evaluate structure formation of cast structural low and medium alloy steels.Item Kinetics of Solidification and Crystallization of Liquid Axial Zone of Fe-C Alloys in Cylindrical Molds(The Katowice Branch of the Polish Academy of Sciences, Poland, 2024) Khrychikov, Valerii Ye.; Semenov, Oleksandr D.; Aftandiliants, Y.; Gnyloskurenko, S.; Semenova, Tetіana V.; Meniailo, Helena V.ENG: According to the results of digitization of the experimental studies carried out in the past concerning Fe-C alloys solidification in cylindrical molds of castings with a carbon content of 0.04%, 0.1%, 0.4%, 0.93%, 1.42%; 2.44%, 3.28%, 4.45%, 4.83% and their subsequent interpolation in the range of 0.04 ÷4.83%С there were obtained the curves of the advancement of the pour point, liquidus and solidus in the coordinates of the relative thickness of the solidified metal layer x/R and the parametric criterion τ/R2. Their usage is proposed for the development of modes of physical and chemical influence on the liquid metal in the axial zone of the casting after solidification of its calculated layer. Calculation of the mass of modifiers or deoxidizers for introduction into the axial zone was performed in relation to the total mass of metal in the liquid and liquid-solid zones of the casting. The technique for calculating the mass and time of introduction a graphitizing modifier into the axial zone of rolling rolls made of hypereutectoid steel with 1.7%C is proposed to reduce the negative impact of cementite, chromium and molybdenum carbides on the structure of the axial zone of the rolls. The obtained curves can also be used to assess the accuracy of computer modeling of the processes of Fe-C alloys solidification and further adaptation of mathematical models by the correction of thermophysical coefficients, the values of which are not always known in the liquidus-solidus temperature range.Item The Process of Vacuum Formation in the Shrinkage Cavity at Castings Crystallization(The Katowice Branch of the Polish Academy of Sciences, Poland, 2022) Khrychikov, Valerii Ye.; Semenov, Oleksandr D.; Meniailo, Helena V.; Aftandiliants, Y.; Gnyloskurenko, S.ENG: The formation process of one of the most common casting defects, a shrinkage depression concerned to shrinkage cavity, was studied. The methodology, device and the experimental set up were developed to study the shrinkage cavity growth. The kinetics of vacuum formation in the cavity of the spherical casting of Al-Si-Mg alloy at its solidification in the sand-and-clay form was investigated. The data were analysed taking in mind the temperature variation in the centre of crystallizing casting. The causes of the shrinkage depression in castings were clarified. It was determined that atmospheric pressure leads to the retraction and curvature of metal layer on the surface of the casting with lower strength below which the shrinkage cavity is formed. To avoid such defects it was recommended to use the external or internal chills, feeders and other known technological methods. Deep shrinkage cavities inside the castings could be removed with an air flow through a thin tubular needle of austenitic steels for medical injections.Item Regularities of Crystallization Heat Release During Solidification of Alloyed Cast Irons(The Katowice Branch of the Polish Academy of Sciences, Poland, 2023) Aftandiliants, Y.; Gnyloskurenko, S.; Meniailo, Helena V.; Khrychikov, Valerii Ye.; Lomakin, V.ENG: The chemical composition of alloys plays an important role at their crystallization and influences the solid phase formation, and thus, microstructure and properties. The present paper studies the release of the heat of crystallization of alloyed wear-resistant cast irons in order to determine the quantitative patterns of the chemical composition influence to the kinetics of crystallization. The differential thermal analysis was applied to get the data of heat release, its rate at cast iron temperature decrease. The normalized dependence of the amount of crystallization heat over time was obtained. The main temperature parameters were analyzed and four stages at irons crystallization were established and characterized with their duration and released heat. The multiple correlation analysis allowed considering a numerous physical and chemical factors and distinguishing their role at crystallization of irons. As a result, the quantitative regularities are determined of influencing the content of alloying elements, impurities and carbides on a heat and time of crystallization at the different stages of solidification, which are of great importance in developing alloyed irons with required quality and properties.