[1] SHEN H T, FORSSBERG E. An overview of recovery of metals from slags[J]. Waste Manag, 2003, 23(10): 933-949.

[2] JIA R Q, LIU J X, JIA R Q. A study of factors that influence the hydration activity of mono-component CaO and bi-component CaO/Ca2Fe2O5 systems[J]. Cem Concr Res, 2017, 91: 123-132.

[3] WANG Q, YAN P Y, YANG J W, et al. Influence of steel slag on mechanical properties and durability of concrete[J]. Constr Build Mater, 2013, 47: 1414-1420.

[4] WANG Q, YAN P Y, FENG J W. A discussion on improving hydration activity of steel slag by altering its mineral compositions[J]. J Hazard Mater, 2011, 186(2/3): 1070-1075.

[5] LYU B B, WANG G, ZHAO L D, et al. Effect of atmosphere and basicity on softening-melting behavior of primary slag formation in cohesive zone[J]. J Iron Steel Res Int, 2023, 30(2): 227-235.

[6] LINDVALL M, YE G. Experiences of using various metallurgical reactors for reduction of vanadium bearing steel slags and other wastes[C]//International smelting technology symposium: incorporating the 6th advances in sulfide smelting symposium, Hoboken, NJ, USA, 2012: 147-154.

[7] LIU C W, HUANG S G, WOLLANTS P, et al. Valorization of BOF steel slag by reduction and phase modification: Metal recovery and slag valorization[J]. Metall Mater Trans B, 2017, 48(3): 1602-1612.

[8] GUO H, YIN S H, YU Q J, et al. Iron recovery and active residue production from basic oxygen furnace (BOF) slag for supplementary cementitious materials[J]. Resour Conserv Recycl, 2018, 129: 209-218.

[9] LEE J, AN S B, SHIN M, et al. Valorization of electrical arc furnace oxidizing slag[M]. Celebrating the Megascale. Cham: Springer, 2014: 347-355.

[10] YIN Suhong, GUO Hui, YU Qijun, et al. J Chin Ceram Soc, 2013, 41(7): 966-971.

[11] YANG Yao. Study on thermodynamics of FeOx deoxidization, Fe recycled from steel slag and properties of residue[D]. Guangzhou: South China University of Technology, 2013.

[12] GUO Hui. Iron recovery and preparation of water-quenched slag with high cementitious performance from BOF slag by means of reduction. Guangzhou: South China University of Technology, 2018.

[13] HE Ning, HOU Xinkai, ZHAO Zhengfu, et al. Bull Chin Ceram Soc, 2016, 35(2): 437-442.

[14] PAL S C, MUKHERJEE A, PATHAK S R. Investigation of hydraulic activity of ground granulated blast furnace slag in concrete[J]. Cem Concr Res, 2003, 33(9): 1481-1486.

[15] ALLAHVERDI A, MALEKI A, MAHINROOSTA M. Chemical activation of slag-blended Portland cement[J]. J Build Eng, 2018, 18: 76-83.

[16] FERNáNDEZ-CARRASCO L, TORRENS-MARTíN D, MORALES L M, et al. Infrared spectroscopy in the analysis of building and construction materials[M]. THEOPHANIDES T. Ed. Infrared Spectroscopy-Materials Science, Engineering and Technology. InTech, 2012.

[17] KLEDY?SKI Z, MACHOWSKA A, PACEWSKA B, et al. Investigation of hydration products of fly ash-slag pastes[J]. J Therm Anal Calorim, 2017, 130(1): 351-363.

[18] DE BENEDETTO G E, LAVIANO R, SABBATINI L, et al. Infrared spectroscopy in the mineralogical characterization of ancient pottery[J]. J Cult Herit, 2002, 3(3): 177-186.

[19] AKYUZ S, AKYUZ T, BASARAN S, et al. Analysis of ancient potteries using FT-IR, micro-Raman and EDXRF spectrometry[J]. Vib Spectrosc, 2008, 48(2): 276-280.

[20] VELRAJ G, RAMYA R, HEMAMALINI R. FT-IR spectroscopy, scanning electron microscopy and porosity measurements to determine the firing temperature of ancient megalithic period potteries excavated at Adichanallur in Tamilnadu, South India[J]. J Mol Struct, 2012, 1028: 16-21.

[21] TARHAN ?, I??K ?, S??üT B. Application of ATR-FTIR spectroscopy in tandem with chemometrics for assessing the firing conditions of Hellenistic and Roman ceramic shards excavated from the ancient city of Stratonikeia in South-Western Turkey[J]. Microchem J, 2021, 162: 105852.

[22] KRISKOVA L, PONTIKES Y, CIZER ?, et al. Hydraulic behavior of mechanically and chemically activated synthetic merwinite[J]. J Am Ceram Soc, 2014, 97(12): 3973-3981.

[23] SITARZ M. The structure of simple silicate glasses in the light of Middle Infrared spectroscopy studies[J]. J Non Cryst Solids, 2011, 357(6): 1603-1608.

[24] LI Z, MA G J, ZHENG D L, et al. Effect of Fe2O3 on the crystallization behavior, microstructure and properties of glass-ceramics prepared from the modified tailings after reduction of copper slag[J]. Mater Today Commun, 2022, 31: 103516.

[25] SCRIVENER K, OUZIA A, JUILLAND P, et al. Advances in understanding cement hydration mechanisms[J]. Cem Concr Res, 2019, 124: 105823.

[26] BULLARD J W, JENNINGS H M, LIVINGSTON R A, et al. Mechanisms of cement hydration[J]. Cem Concr Res, 2011, 41(12): 1208-1223.

[27] HIRSCH T, MATSCHEI T, STEPHAN D. The hydration of tricalcium aluminate (Ca3Al2O6) in Portland cement-related systems: A review[J]. Cem Concr Res, 2023, 168: 107150.

[28] HANDKE M. Vibrational spectra, force constants, and Si-O bond character in calcium silicate crystal structure[J]. Appl Spectrosc, 1986, 40(6): 871-877.

[29] ZHANG L, JIA Y, SHU H, et al. The effect of basicity of modified ground granulated blast furnace slag on its denitration performance[J]. J Clean Prod, 2021, 305: 126800.

[30] MOZGAWA W, DEJA J. Spectroscopic studies of alkaline activated slag geopolymers[J]. J Mol Struct, 2009, 924-926: 434-441.

[31] ISMAIL I, BERNAL S A, PROVIS J L, et al. Microstructural changes in alkali activated fly ash/slag geopolymers with sulfate exposure[J]. Mater Struct, 2013, 46(3): 361-373.

[32] PRASANNA K M, SHARATH B P, CHOUKADE H, et al. Research on setting time, compressive strength and microstructure of fly ash-based geopolymer mixture containing slag[J]. Iran J Sci Technol Trans Civ Eng, 2023, 47(3): 1503-1517.

[33] ASTOVEZA J, TRAUCHESSEC R, MIGOT-CHOUX S, et al. Iron-rich slag addition in ternary binders of Portland cement, aluminate cement and calcium sulfate[J]. Cem Concr Res, 2022, 153: 106689.

[34] HORGNIES M, CHEN J J, BOUILLON C. Overview about the use of Fourier Transform Infrared spectroscopy to study cementitious materials[C]. Brebbia C A, Mammoli A A, Klemm A eds, Materials Characterisation VI, WIT PressSouthampton, UK: WIT Press, 2013: 251-262.

[35] ZHAN J H, FU B, CHENG Z Y. Macroscopic properties and pore structure fractal characteristics of alkali-activated metakaolin-slag composite cementitious materials[J]. Polymers, 2022, 14(23): 5217.

[36] KIM J J, FOLEY E M, REDA TAHA M M. Nano-mechanical characterization of synthetic calcium-silicate-hydrate (C-S-H) with varying CaO/SiO2 mixture ratios[J]. Cem Concr Compos, 2013, 36: 65-70.

[37] SCRIVENER K, SNELLINGS R, LOTHENBACH B. A practical guide to microstructural analysis of cementitious materials[M]. New York: CRC Press, 2018