[1] [1] LIN X QCHEN JXU S Xet al. Solidification of heavy metals and PCDD/Fs from municipal solid waste incineration fly ash by the polymerization of calcium carbonate oligomers［J］. Chemosphere2022288: 132420.

[2] [2] CHEN Y CCHEN F YZHOU Fet al. Early solidification/stabilization mechanism of heavy metals (PbCr and Zn) in Shell coal gasification fly ash based geopolymer［J］. Science of the Total Environment2022802: 149905.

[3] [3] ZHOU Y FCAI G HCHEESEMAN Cet al. Sewage sludge ash-incorporated stabilisation/solidification for recycling and remediation of marine sediments［J］. Journal of Environmental Management2022301: 113877.

[4] [4] SUN D DTAY J HCHEONG H Ket al. Recovery of heavy metals and stabilization of spent hydrotreating catalyst using a glass-ceramic matrix［J］. Journal of Hazardous Materials200187(1/2/3): 213-223.

[6] [6] WEY M YLIU K YTSAI T Het al. Thermal treatment of the fly ash from municipal solid waste incinerator with rotary kiln［J］. Journal of Hazardous Materials2006137(2): 981-989.

[7] [7] ZHANG Y SSUN WCHEN Q Let al. Synthesis and heavy metal immobilization behaviors of slag based geopolymer［J］. Journal of Hazardous Materials2007143(1/2): 206-213.

[8] [8] NATH S K. Fly ash and zinc slag blended geopolymer: immobilization of hazardous materials and development of paving blocks［J］. Journal of Hazardous Materials2020387: 121673.

[9] [9] WONG GGAN MFAN X Het al. Co-disposal of municipal solid waste incineration fly ash and bottom slag: a novel method of low temperature melting treatment［J］. Journal of Hazardous Materials2021408: 124438.

[10] [10] MA W CSHI W BSHI Y Jet al. Plasma vitrification and heavy metals solidification of MSW and sewage sludge incineration fly ash［J］. Journal of Hazardous Materials2021408: 124809.

[12] [12] PAN D ALI L LWU Y Fet al. Characteristics and properties of glass-ceramics using lead fuming slag［J］. Journal of Cleaner Production2018175: 251-256.

[13] [13] LI B QGUO Y PFANG J Z. Effect of crystallization temperature on glass-ceramics derived from tailings waste［J］. Journal of Alloys and Compounds2020838: 155503.

[14] [14] LAN J RDONG Y QSUN Yet al. A novel method for solidification/stabilization of Cd(II)Hg(II)Cu(II)and Zn(II) by activated electrolytic manganese slag［J］. Journal of Hazardous Materials2021409: 124933.

[15] [15] SHEN H LLIU BSHI Z Set al. Reduction for heavy metals in pickling sludge with aluminum nitride in secondary aluminum dross by pyrometallurgyfollowed by glass ceramics manufacture［J］. Journal of Hazardous Materials2021418: 126331.

[16] [16] LIU T YXIE Y XGUO X Get al. The role and stabilization behavior of heavy metal ions in eco-friendly porous semi-vitrified ceramics for construction application［J］. Journal of Cleaner Production2021292: 125855.

[17] [17] CASSINGHAM N JSTENNETT M CBINGHAM P Aet al. The structural role of Zn in nuclear waste glasses［J］. International Journal of Applied Glass Science20112(4): 343-353.

[19] [19] PIEKKARI KOHENOJA KISTERI Vet al. Immobilization of heavy metalsselenateand sulfate from a hazardous industrial side stream by using calcium sulfoaluminate-belite cement［J］. Journal of Cleaner Production2020258: 120560.

[20] [20] KRSTIC IZEC SLAZAREVIC Vet al. Use of sintering to immobilize toxic metals present in galvanic sludge into a stabile glass-ceramic structure［J］. Science of Sintering201850(2): 139-147.

[21] [21] CHEN G H. Effect of ZnO addition on properties of cordierite-based glass-ceramics［J］. Journal of Materials Science: Materials in Electronics200718(12): 1253-1257.

[22] [22] CHEN G HLIU X Y. Sinteringcrystallization and properties of MgO-Al2O3-SiO2 system glass-ceramics containing ZnO［J］. Journal of Alloys and Compounds2007431(1/2): 282-286.

[23] [23] SHARIFIKOLOUEI EBAINO FGALLETTI Cet al. Adsorption of Pb and Cd in rice husk and their immobilization in porous glass-ceramic structures［J］. International Journal of Applied Ceramic Technology202017(1): 105-112.

[24] [24] HAMMAD A HABDELGHANY A MELBATAL H A. Thermalstructuraland morphological investigations of modified bismuth silicate glass-ceramics［J］. Silicon20179(2): 239-248.

[25] [25] PAN D ALI L JYANG Jet al. Production of glass-ceramics from heavy metal gypsum and pickling sludge［J］. International Journal of Environmental Science and Technology201512(9): 3047-3052.

[26] [26] AZOOZ M AOUIS M AELBATAL F Het al. Crystallization behavior of glasses from the system CdO-B2O3 with varying CdO contents (30-90mol%)［J］. Journal of Molecular Structure20191194: 256-261.

[27] [27] LIAO C ZTANG Y YLIU C Set al. Double-Barrier mechanism for chromium immobilization: a quantitative study of crystallization and leachability［J］. Journal of Hazardous Materials2016311: 246-253.