Sinter strength and pore structure development using analogue tests

Harvey, Tobin; Honeyands, Tom; O'Dea, Damien; Evans, Geoffrey

Title: Sinter strength and pore structure development using analogue tests
Creator: Harvey, Tobin; Honeyands, Tom; O'Dea, Damien; Evans, Geoffrey
Relation: ARC.LP160101711 http://purl.org/au-research/grants/arc/LP160101711
Relation: ISIJ International Vol. 60, Issue 1, p. 73-83
Publisher Link: http://dx.doi.org/10.2355/isijinternational.ISIJINT-2019-247
Publisher: Iron and Steel Institute of Japan
Resource Type: journal article
Date: 2020
Description: Iron ore sinter quality is important for productive and efficient operation of the modern iron blast furnace. Understanding the driving mechanisms of industrial sinter quality is complicated by the variability in the product. Variability arises due to many factors including heterogeneous raw material distribution, spatial variation in temperature profile and gas atmosphere down the bed. To reduce product variability iron ore sinter analogues were created from the -1.0 mm fraction of an Australian iron ore. Samples were fired under tightly controlled thermal and atmospheric conditions in an infra-red rapid heating furnace. Maximum temperature was found to have a strong influence on the porosity of the fired tablets and hence their strength. The more commonly used integrated time at temperature above 1 100°C (EA, enclosed area) was found to be not as useful a predictor of sinter strength for these analogue tests. Analogues fired to 1 320°C showed a minimum in porosity and maximum strength after holding for 1 min. With longer firing, over-sintering occurred caused by pore swelling, leading to a decrease in strength. The proposed mechanisms of pore swelling are bubble coalescence and gas generation from hematite decomposition to magnetite. Extrapolating these results suggests over-sintering may occur in the lower part of the industrial sinter bed if the temperature is too high for too long, leading to lower strength product.
Subject: sinter quality; strength; pore swelling; porosity; iron ore
Identifier: http://hdl.handle.net/1959.13/1417705
Identifier: uon:37239
Identifier: ISSN:0915-1559
Language: eng
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