https://doi.org/10.15255/KUI.2015.047
Published: Kem. Ind. 65 (1-2) (2016) 11−16
Paper reference number: KUI-47/2015
Paper type: Original scientific paper
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Effect of Lanthanum on Microstructures and Properties of ASTM A216 Steel

A. Q. Wang, M. Li, D. Q. Ma, Q. J. Wu and J. P. Xie

Abstract

In order to satisfy the rudder horn casting standards of the International Association of Classification Societies, the properties of ASTM A216 steel should be improved. Therefore, in this article the rudder horn casting and accompanying specimens were cast moulded by arc furnace smelting, external refining, and modification treatment of the molten steel by lanthanum. The samples were first underwent normalizing treatment at 900 °C for 10 hours, then air cooled, followed by tempering treatment at 600 °C for 7 hours and samples were air cooled again. The mechanical properties and microstructures of the samples were measured. The crystallography relationships between lanthanum compounds formed in the molten steel and primary δ-Fe were analysed. The nucleation effect of lanthanum compounds as a heterogeneous nucleation core of primary δ-Fe were calculated and discussed based on two-dimensional mismatch theory. The results indicated that the strip MnS inclusions in ASTM A216 steel became granular rare earth compound inclusions due to La. The refined microstructures were obtained by a synergistic effect of the enhanced condensate depression and the nucleation rate of melt and La compounds as the heterogeneous nucleation caused by La.

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Keywords

ASTM A216 steel, inclusion, lanthanum, two-dimensional mismatch, grain refinement