Recycling of Ti-extraction blast furnace slag: Preparation of calcium silicate board with high slag content by steam pressure curing

2021 ◽  
Author(s):  
Lin Li ◽  
Tao Jiang ◽  
Bojian Chen ◽  
Jing Wen
Keyword(s):  
Blast Furnace ◽  
Calcium Silicate ◽  
Blast Furnace Slag ◽  
Steam Pressure ◽  
Furnace Slag ◽  
Slag Content

Preparation and Characterization of Desulfurization Sorbent from Hydrated Lime and Blast Furnace Slag

2008 ◽  
Vol 368-372 ◽  
pp. 1548-1551
Author(s):  
Guo Zhuo Gong ◽  
Shu Feng Ye ◽  
Feng Li ◽  
Yan Bin Cui ◽  
Ya Jun Tian ◽  
...  
Keyword(s):  
Blast Furnace ◽  
Flue Gas ◽  
Calcium Silicate ◽  
Blast Furnace Slag ◽  
Hydrated Lime ◽  
Experiment Design ◽  
Factorial Experiment ◽  
Calcium Silicate Hydrates ◽  
Furnace Slag

A series of sorbents for SO2 in flue gas were prepared from hydrated lime and blast furnace slag using a factorial experiment design. It is found that the reaction between hydrated lime and blast furnace slag is fast. The reactivities of the as-prepared sorbents are higher than those of hydrated lime alone due to the formation of calcium silicate hydrates, and hence the utilization of hydrated lime as well as the Ca in the blast furnace slag is improved. Furthermore, the effects of preparation variables on the reactivity of the sorbents are also discussed.

scholarly journals QUANTITATIVE ANALYSIS OF SLAG CONTENT IN ANHYDROUS AND HARDENED BLAST-FURNACE SLAG CEMENT

2010 ◽  
Vol 64 (1) ◽  
pp. 575-581
Author(s):  
Shunsuke HANEHARA ◽  
Nobukazu NITO ◽  
Kiyoshi KOIBUCHI ◽  
Tetsuya OYAMADA
Keyword(s):  
Blast Furnace ◽  
Quantitative Analysis ◽  
Blast Furnace Slag ◽  
Slag Cement ◽  
Furnace Slag ◽  
Slag Content

Impact of Slag Content and Curing Methods on the Strength of Alkaline-Activated Silico-Manganese Fume/Blast Furnace Slag Mortars

2019 ◽  
Vol 44 (10) ◽  
pp. 8325-8335 ◽  
Author(s):  
Muhammad Nasir ◽  
Megat Azmi Megat Johari ◽  
Moruf Olalekan Yusuf ◽  
Mohammed Maslehuddin ◽  
Mamdouh A. Al-Harthi ◽  
...  
Keyword(s):  
Blast Furnace ◽  
Blast Furnace Slag ◽  
Curing Methods ◽  
Furnace Slag ◽  
Slag Content

Changes in Heavy Metal Content of Blast Furnace Slag Cement According to Blast Furnace Slag Content

2018 ◽  
Vol 35 (4) ◽  
pp. 356-361
Author(s):  
Yong-Jun Kim ◽  
Nam-Il Uhm ◽  
Woo-Il Kim ◽  
Jung-Keun Oh ◽  
Sun-Kyoung Shin ◽  
...  
Keyword(s):  
Heavy Metal ◽  
Blast Furnace ◽  
Blast Furnace Slag ◽  
Metal Content ◽  
Heavy Metal Content ◽  
Slag Cement ◽  
Furnace Slag ◽  
Slag Content

scholarly journals Effect of Blast-Furnace Slag Replacement Ratio and Curing Method on Pore Structure Change after Carbonation on Cement Paste

Materials ◽  
2020 ◽  
Vol 13 (21) ◽  
pp. 4787
Author(s):  
Junho Kim ◽  
Seunghyun Na ◽  
Yukio Hama
Keyword(s):  
Blast Furnace ◽  
Calcium Carbonate ◽  
Pore Structure ◽  
Calcium Silicate ◽  
Blast Furnace Slag ◽  
Calcium Silicate Hydrate ◽  
Structure Change ◽  
Replacement Rate ◽  
Replacement Ratio ◽  
Furnace Slag

The frost damage resistance of blast-furnace slag (BFS) cement is affected by carbonation. Hence, this study investigates the carbonation properties of pastes incorporating BFS with different replacement ratios, such as 15%, 45%, and 65% by weight, and different curing conditions, including air and carbonation. The BFS replacement ratio properties, determined by the Ca/Si ratio of calcium silicate hydrate in the cement paste sample, were experimentally investigated using mercury intrusion porosimetry, X-ray diffraction, and thermal analysis. The experimental investigation of the pore structure revealed that total porosity decreased after carbonation. In addition, the porosity decreased at a higher rate as the BFS replacement rate increased. Results obtained from this study show that the chemical change led to the higher replacement rate of BFS, which produced a higher amount of vaterite. In addition, the lower the Ca/Si ratio, the higher the amount of calcium carbonate originating from calcium silicate hydrate rather than from calcium hydroxide. As a result of the pore structure change, the number of ink-bottle pores was remarkably reduced by carbonation. Comparing the pore structure change in air-cured and carbonation test specimens, it was found that as the replacement rate of BFS increased, the number of pores with a diameter of 100 nm or more also increased. The higher the replacement rate of BFS, the higher the amount of calcium carbonate produced compared with the amount of calcium hydroxide produced during water curing. Due to the generation of calcium carbonate and the change in pores, the overall number of pores decreased as the amount of calcium carbonate increased.

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