Journal of the Chinese Ceramic Society, Volume. 52, Issue 5, 1621(2024)
Hydration Characteristics of Steel Slag Under Complexing of Triethanolamine
[1] [1] ZHANG S F, NIU D T. Hydration and mechanical properties of cement-steel slag system incorporating different activators[J]. Constr Build Mater, 2023, 363: 129981.
[2] [2] CHANG L, LIU H, WANG J F, et al. Effect of chelation via ethanol-diisopropanolamine on hydration of pure steel slag[J]. Constr Build Mater, 2022, 357: 129372.
[3] [3] WANG Jianfeng, CHANG Lei, WANG Yan, et al. Mater Rep, 2023, 37(11): 119-127.
[4] [4] DUAN S Y, LIAO H Q, SONG H P, et al. Performance improvement to ash-cement blocks by adding ultrafine steel slag collected from a supersonic steam-jet smasher[J]. Constr Build Mater, 2019, 212: 140-148.
[5] [5] HUO B B, LI B L, CHEN C, et al. Surface etching and early age hydration mechanisms of steel slag powder with formic acid[J]. Constr Build Mater, 2021, 280: 122500.
[6] [6] SUN J W, ZHANG Z Q, ZHUANG S Y, et al. Hydration properties and microstructure characteristics of alkali-activated steel slag[J]. Constr Build Mater, 2020, 241: 118141.
[7] [7] LIU Q, LIU J X, QI L Q. Effects of temperature and carbonation curing on the mechanical properties of steel slag-cement binding materials[J]. Constr Build Mater, 2016, 124: 999-1006.
[8] [8] LU X A, DAI W B, LIU X M, et al. Effect of basicity on cementitious activity of modified electric arc furnace steel slag[J]. Metall Res Technol, 2019, 116(2): 217.
[9] [9] CHANG L, LIU H, YUE D Y, et al. Effect of ethanol- diisopropanolamine on the hydration and mechanical properties of steel slag-cement composite system[J]. J Adv Concr Technol, 2022, 20(8): 525-534.
[10] [10] XU Z Q, LI W F, SUN J F, et al. Hydration of Portland cement with alkanolamines by thermal analysis[J]. J Therm Anal Calorim, 2018, 131(1): 37-47.
[11] [11] ZUNINO F, SCRIVENER K. Assessing the effect of alkanolamine grinding aids in limestone calcined clay cements hydration[J]. Constr Build Mater, 2021, 266: 121293.
[12] [12] HAN J G, WANG K J, SHI J Y, et al. Mechanism of triethanolamine on Portland cement hydration process and microstructure characteristics[J]. Constr Build Mater, 2015, 93: 457-462.
[13] [13] LU Z C, KONG X M, JANSEN D, et al. Towards a further understanding of cement hydration in the presence of triethanolamine[J]. Cem Concr Res, 2020, 132: 106041.
[14] [14] RAMACHANDRAN V S. Influence of triethanolamine on the hydration characteristics of tricalcium silicate[J]. J Appl Chem, 2007, 22(11): 1125-1138.
[15] [15] YAPHARY Y L, YU Z C, LAM R H W, et al. Effect of triethanolamine on cement hydration toward initial setting time[J]. Constr Build Mater, 2017, 141: 94-103.
[16] [16] BERGOLD S T, GOETZ-NEUNHOEFFER F, NEUBAUER J. Interaction of silicate and aluminate reaction in a synthetic cement system: Implications for the process of alite hydration[J]. Cem Concr Res, 2017, 93: 32-44.
[17] [17] XU Z Q, LI W F, SUN J F, et al. Research on cement hydration and hardening with different alkanolamines[J]. Constr Build Mater, 2017, 141: 296-306.
[18] [18] DERAKHSHANI A, GHADI A, VAHDAT S E. Study of the effect of calcium nitrate, calcium formate, triethanolamine, and triisopropanolamine on compressive strength of Portland-pozzolana cement[J]. Case Stud Constr Mater, 2023, 18: e01799.
[19] [19] HEINZ D, G?BEL M, HILBIG H, et al. Effect of TEA on fly ash solubility and early age strength of mortar[J]. Cem Concr Res, 2010, 40(3): 392-397.
[20] [20] ZHANG Y R, KONG X M, LU Z C, et al. Influence of triethanolamine on the hydration product of portlandite in cement paste and the mechanism[J]. Cem Concr Res, 2016, 87: 64-76.
[21] [21] WANG J F, CHANG L, YUE D Y, et al. Effect of chelating solubilization via different alkanolamines on the dissolution properties of steel slag[J]. J Clean Prod, 2022, 365: 132824.
[22] [22] KONG X M, LU Z B, LIU H, et al. Influence of triethanolamine on the hydration and the strength development of cementitious systems[J]. Mag Concr Res, 2013, 65(18): 1101-1109.
[23] [23] CHANG Jun, XIONG Cang. J Dalian Univ Technol, 2019, 59(5): 536-542.
[24] [24] TENG Y B, LIU S H, ZHANG Z C, et al. Effect of triethanolamine on the chloride binding capacity of cement paste with a high volume of fly ash[J]. Constr Build Mater, 2022, 315: 125612.
[25] [25] CUI C Y, YU C Y, ZHAO J Y, et al. Steel slag/precarbonated steel slag as a partial substitute for Portland cement: Effect on the mechanical properties and microstructure of stabilized soils[J]. KSCE J Civ Eng, 2022, 26(9): 3803-3814.
[26] [26] ZOU F B, TAN H B, HE X Y, et al. Effect of triisopropanolamine on compressive strength and hydration of steaming-cured cement-fly ash paste[J]. Constr Build Mater, 2018, 192: 836-845.
[27] [27] KONG Xiangming, LU Zhenbao, YAN Juan, et al. J Chin Ceram Soc, 2013, 41(7): 981-986.
[28] [28] ZENG B, ZHANG Z, YANG S, et al. Alkanolamines-activated steel slag for stabilization/solidification of heavy metal contaminated soil[J]. J Environ Chem Eng, 2023, 11(3): 110301.
[29] [29] CUI Suping, YANG Songge, WANG Jianfeng, et al. J Beijing Univ Technol, 2016, 42(7): 1108-1113.
Get Citation
Copy Citation Text
CHANG Lei, HUANG Bingyin, WANG Jianfeng, LIU Hui, WANG Yali, CUI Suping. Hydration Characteristics of Steel Slag Under Complexing of Triethanolamine[J]. Journal of the Chinese Ceramic Society, 2024, 52(5): 1621
Category:
Received: Sep. 16, 2023
Accepted: --
Published Online: Aug. 20, 2024
The Author Email: Suping CUI (cuisuping@bjut.edu.cn)