A. A. Belov scite author profile

A. A. Belov

4Publications

4Citation Statements Received

7Citation Statements Given

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Volgograd State Technical University, Russian Scientific Center "Applied Chemistry", Moscow State University

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Improvement of mechanical properties of iron castings via adjusting of solidification rate

Gabelchenko¹,

Belov²,

Kidalov³

et al. 2020

cisisr

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The work is devoted to improvement of mechanical properties of iron castings via adjusting of the cooling rate without introduction of alloying additives. The new technological solution is suggested; it can be easily adapted to a casting technology. This solution is based on variation of the cooling rate of iron castings within structurally sensitive solidification intervals. For this purpose, the casting mould was initially cooled after pouring, then heated and cooled again. Cooling of the mould during the period of primary austenite crystal forming led to increase of dendrite crystallization rate and was executed using compressed air. Retarding of the cooling rate during the period of eutectic transformation was provided by the mould heating via burning of exothermic carbon-containing additives introduced in a facing layer of sand-clay moulding mix. Burning reaction is accompanied by heat extraction, what steeply retarded the cooling rate within the interval of eutectic transformation. Consequent acceleration of castings cooling within the interval of eutectoid transformation was achieved via repeated air blowing through a worked reaction layer. Adjusted cooling of iron castings allowed to provide the most favourable solidification conditions, taking into account strictly individual requirements for each structurally sensitive temperature intervals. It led to increase of a volumetric part of primary austenite dendrite crystals, to decrease of eutectic transformation overcooling degree, to forming of graphite eutectics and enlargement of dispersity of pearlite component in iron. Consequently, lowering of widespread iron castings rejects takes place, among them chilling, with simultaneous improvement of metal mechanical properties. As a result, the primary and real structures were varied, what had a positive effect on mechanical properties of casting metal. It is shown that use of solidification rate adjustment led to essential increase of metal tensile strength for the experimental casting.

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ESCA study of modifying effect by potassium carbonate on Pd/γ−Al2O3 catalysts

Yurchenko

Boronin

Belov

et al. 1991

React Kinet Catal Lett

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Production of High-Quality Castings from Gray Iron by Differentiated Cooling in Iron Mould

Gabelchenko

Belov

Meshcheryakova

2019

MSF

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Using the System of Computer Modeling of Foundry Processes (Scm Lp) Polygonsoft Version 20.0

et al. 2021

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A. A. Belov

Improvement of mechanical properties of iron castings via adjusting of solidification rate

ESCA study of modifying effect by potassium carbonate on Pd/γ−Al2O3 catalysts

Production of High-Quality Castings from Gray Iron by Differentiated Cooling in Iron Mould

Using the System of Computer Modeling of Foundry Processes (Scm Lp) Polygonsoft Version 20.0

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