Effect of Incremental Utilization of Unground Sea Sand Ore on the Consolidation and Reduction Behavior of Vanadia–Titania Magnetite Pellets

Effect of Incremental Utilization of Unground Sea Sand Ore on the Consolidation and Reduction Behavior of Vanadia–Titania Magnetite Pellets

In the iron and steel industry, improving the usage amount of New Zealand sea sand ore as a raw material for ironmaking can reduce the production costs of iron and steel enterprises to a certain extent. In this paper, New Zealand sea sand ore without any grinding pretreatment was used as a raw mater...

Full description

Bibliographic Details
Main Authors: Zhenxing Xing, Gongjin Cheng, Zixian Gao, He Yang, Xiangxin Xue
Format: Article
Language:English
Published: MDPI AG 2021-02-01
Series:Metals
Subjects:
sea sand ore
vanadia–titania magnetite pellets
compressive strength
reduction swellability
reduction degree
Online Access:https://www.mdpi.com/2075-4701/11/2/269
id doaj-62989f171f0d4a51bfc54383425af543
record_format Article
spelling doaj-62989f171f0d4a51bfc54383425af5432021-02-06T00:00:25ZengMDPI AGMetals2075-47012021-02-011126926910.3390/met11020269Effect of Incremental Utilization of Unground Sea Sand Ore on the Consolidation and Reduction Behavior of Vanadia–Titania Magnetite PelletsZhenxing Xing0Gongjin Cheng1Zixian Gao2He Yang3Xiangxin Xue4School of Metallurgy, Northeastern University, Shenyang 110819, ChinaSchool of Metallurgy, Northeastern University, Shenyang 110819, ChinaSchool of Metallurgy, Northeastern University, Shenyang 110819, ChinaSchool of Metallurgy, Northeastern University, Shenyang 110819, ChinaSchool of Metallurgy, Northeastern University, Shenyang 110819, ChinaIn the iron and steel industry, improving the usage amount of New Zealand sea sand ore as a raw material for ironmaking can reduce the production costs of iron and steel enterprises to a certain extent. In this paper, New Zealand sea sand ore without any grinding pretreatment was used as a raw material, oxidized pellets were prepared by using a disc pelletizer, and the effect of sea sand ore on the performance of green pellets and the metallurgical properties of oxidized pellets was investigated. The effects of sea sand ore on the compressive strength, falling strength, compressive strength of oxidized pellets, and reduction performance were mainly investigated. X-Ray Diffraction (XRD) patterns and Scanning Electron Microscope (SEM) analysis methods were used to discuss the influence of sea sand ore on the microstructure of the pellets’ oxidation and reduction process. As the amount of sea sand ore used increased, the compressive strength of green pellets was gradually decreased, and the falling strength of green pellets and the compressive strength of oxidized pellets were gradually increased. When the amount of sea sand ore used was 40%, the reduction swelling index of pellets was 16.31%. The increase of sea sand ore used made the reduction of pellets suppressed and the reduction rate decreased. When the amount of sea sand ore used increased to 40%, the reduction degree of sea sand ore pellets was only 60.06%. The experimental results in this paper provide specific experimental data for the large-scale application of New Zealand sea sand ore in the blast furnace ironmaking process.https://www.mdpi.com/2075-4701/11/2/269sea sand orevanadia–titania magnetite pelletscompressive strengthreduction swellabilityreduction degree
collection DOAJ
language English
format Article
sources DOAJ
author Zhenxing Xing
Gongjin Cheng
Zixian Gao
He Yang
Xiangxin Xue
spellingShingle Zhenxing Xing
Gongjin Cheng
Zixian Gao
He Yang
Xiangxin Xue
Effect of Incremental Utilization of Unground Sea Sand Ore on the Consolidation and Reduction Behavior of Vanadia–Titania Magnetite Pellets
Metals
sea sand ore
vanadia–titania magnetite pellets
compressive strength
reduction swellability
reduction degree
author_facet Zhenxing Xing
Gongjin Cheng
Zixian Gao
He Yang
Xiangxin Xue
author_sort Zhenxing Xing
title Effect of Incremental Utilization of Unground Sea Sand Ore on the Consolidation and Reduction Behavior of Vanadia–Titania Magnetite Pellets
title_short Effect of Incremental Utilization of Unground Sea Sand Ore on the Consolidation and Reduction Behavior of Vanadia–Titania Magnetite Pellets
title_full Effect of Incremental Utilization of Unground Sea Sand Ore on the Consolidation and Reduction Behavior of Vanadia–Titania Magnetite Pellets
title_fullStr Effect of Incremental Utilization of Unground Sea Sand Ore on the Consolidation and Reduction Behavior of Vanadia–Titania Magnetite Pellets
title_full_unstemmed Effect of Incremental Utilization of Unground Sea Sand Ore on the Consolidation and Reduction Behavior of Vanadia–Titania Magnetite Pellets
title_sort effect of incremental utilization of unground sea sand ore on the consolidation and reduction behavior of vanadia–titania magnetite pellets
publisher MDPI AG
series Metals
issn 2075-4701
publishDate 2021-02-01
description In the iron and steel industry, improving the usage amount of New Zealand sea sand ore as a raw material for ironmaking can reduce the production costs of iron and steel enterprises to a certain extent. In this paper, New Zealand sea sand ore without any grinding pretreatment was used as a raw material, oxidized pellets were prepared by using a disc pelletizer, and the effect of sea sand ore on the performance of green pellets and the metallurgical properties of oxidized pellets was investigated. The effects of sea sand ore on the compressive strength, falling strength, compressive strength of oxidized pellets, and reduction performance were mainly investigated. X-Ray Diffraction (XRD) patterns and Scanning Electron Microscope (SEM) analysis methods were used to discuss the influence of sea sand ore on the microstructure of the pellets’ oxidation and reduction process. As the amount of sea sand ore used increased, the compressive strength of green pellets was gradually decreased, and the falling strength of green pellets and the compressive strength of oxidized pellets were gradually increased. When the amount of sea sand ore used was 40%, the reduction swelling index of pellets was 16.31%. The increase of sea sand ore used made the reduction of pellets suppressed and the reduction rate decreased. When the amount of sea sand ore used increased to 40%, the reduction degree of sea sand ore pellets was only 60.06%. The experimental results in this paper provide specific experimental data for the large-scale application of New Zealand sea sand ore in the blast furnace ironmaking process.
topic sea sand ore
vanadia–titania magnetite pellets
compressive strength
reduction swellability
reduction degree
url https://www.mdpi.com/2075-4701/11/2/269
work_keys_str_mv AT zhenxingxing effectofincrementalutilizationofungroundseasandoreontheconsolidationandreductionbehaviorofvanadiatitaniamagnetitepellets
AT gongjincheng effectofincrementalutilizationofungroundseasandoreontheconsolidationandreductionbehaviorofvanadiatitaniamagnetitepellets
AT zixiangao effectofincrementalutilizationofungroundseasandoreontheconsolidationandreductionbehaviorofvanadiatitaniamagnetitepellets
AT heyang effectofincrementalutilizationofungroundseasandoreontheconsolidationandreductionbehaviorofvanadiatitaniamagnetitepellets
AT xiangxinxue effectofincrementalutilizationofungroundseasandoreontheconsolidationandreductionbehaviorofvanadiatitaniamagnetitepellets
_version_ 1724282813019062272

Similar Items