678 工程科学学报，第42卷.第6期 3(09):72 [47]Yu QQ,Li S L,Li H,et al.Synthesis and characterization of Mn- [32]Lv XX,Tian X K,Yang C,et al.Manganese residues waste on the slag based geopolymer for immobilization of Co.J Clean Prod, application of sulfur concrete production.China Manganese Ind, 2019.234:97 2010,28(2):47 [48]He P Y,Zhang Y J,Chen H,et al.Development of an eco-efficient (吕晓昕，田熙科，杨超，等.锰渣废弃物在硫磺混凝土生产中的 CaMoO /electroconductive geopolymer composite for recycling 应用.中国锰业，2010,28(2)：47) silicomanganese slag and degradation of dye wastewater.J Clean [33]Kim H,Lee C H,Ann K Y.Feasibility of ferronickel slag powder Pod,2019,208:1476 for cementitious binder in concrete mix.Constr Build Mater,2019, [49]Kim Y,Kim M,Sohn J,et al.Applicability of gold tailings,waste 207:693 limestone,red mud,and ferronickel slag for producing glass fibers. [34]Liu X M,Li T Y,Tian W G,et al.Study on the durability of J Clean Prod,2018,203:957 concrete with FNS fine aggregate.JHaard Mater,2020,381: [50]Yin X.The research on preparation of inorganic fiber by using 120936 high temperature ferronickel molten slag.Non-Ferrous Min [35]Dash M K,Patro S K.Performance assessment of ferrochrome Metall,2013,29(5):48 slag as partial replacement of fine aggregate in concrete.EurJ (尹雪.利用镍铁治炼高温炉渣制备超细矿物无机纤维的研究. Environ Civil Eng,2018:1 有色旷冶，2013,29(5)：48) [36]Karakoc M B,Turkmen I,Maras MM,et al.Sulfate resistance of [51]Liu J,Nie QQ,Han Y X,et al.Modified mechanism of asphalt by ferrochrome slag based geopolymer concrete.Ceram Int,2016, nickel-ferrous slag fiber.J Northeast Univ Nat Sci,2018,39(6): 42(1):1254 862 [37]Teing TT,Huat BB K,Shukla S K,et al.Effects of alkali- (刘杰，聂巧巧，韩跃新，等.镍铁矿渣纤维对道路沥青的改性机 activated waste binder in soil stabilization.IntJ GEOMATE,2019. 理.东北大学学报：自然科学版，2018,39(6)：862) 17(59):82 [52]Tang YY.The Test and Design of Heat Silicon Managanese Ore [38]Liao X W,Chen J,Fan T F,et al.Soil of heavy metal composite Furnace Slag Produce Mineral Wool [Dissertation].Xi'an:Xi'an pollution by geological polymer stabilization.Chin J Environ Eng. University of Architecture and Technology,2015 2018,12(7):2056 (唐洋洋，硅锰矿热炉渣生产矿渣棉的试验和设计[学位论文]. (廖希雯，陈杰，范天凤，等.地质聚合物固化稳定化重金属复合 西安：西安建筑科技大学，2015) 污染土壤.环境工程学报，2018,12(7)：2056) [53]Zhao GZ Zhang LL,Cang DQ.Pilot trial of detoxification of [39]Yan C J,Guo L,Ren D M,et al.Novel composites based on chromium slag in cyclone furnace and production of slag wool geopolymer for removal of Pb(II).Mater Lett,2019,239:192 fibres.J Hazard Mater,2018,358:122 [40]Li Q Y,He Y,Xu M X,et al.Study on the removal of Ca2 and [54]Bai Z T,Qiu G B,Yue C S,et al.Crystallization kinetics of glass. Mg"in water by the geopolymer-based inorganic membrane. ceramics prepared from high-carbon ferrochromium slag.Ceram Funct Mater,2017,48(1):1215 1m,2016,42(16):19329 (李巧云，贺艳，徐梦雪，等.地质聚合物基无机膜去除水中钙、 [55]Ljatifi E,Kamusheva A,Grozdanov A,et al.Optimal thermal 镁离子的研究.功能材料，2017,48(1)：1215) cycle for production of glass-ceramic based on wastes from [41]Li K,Lu D Y,Li M H,et al.Research progress of porous ferronickel manufacture.Ceram Int,2015,41(9):11379 geopolymers for thermal insulation.Mater Rev,2015,29(23):58 [56]Zhou K J,Zhao Q L,Zhang Y L.Crystallization properties of the (李款，卢都友，李孟浩，等.多孔地质聚合物保温材料研究进展 glass ceramics prepared from iron-rich nickel slag.Universal J 材料导报，2015,29(23)：58) Mater Sci,.2017,5(2):52 [42]Davidovits J.Geopolymers:inorganic polymeric new materials.J [57]Chen K,Ke C M,Zhang J H.Crystallization properties of Therm4al,1991,37(8):1633 silicomanganese slag-based CaO-MgO-Al2O;-SiOz system glass- [43]Nath S K,Kumar S.Influence of granulated silico-manganese slag ceramics.J Wuhan Univ Sci Technol,2015,38(5):346 on compressive strength and microstructure of ambient cured (陈坤，柯昌明，张锦化.硅锰渣基CaO-MgO-Al,O,-SiO,系矿渣 alkali-activated fly ash binder.Waste Biomass Valor,2019,10(7): 微品玻璃品化性能研究.武汉科技大学学报，2015,38(5)：346) 2045 [58]Li Y,Yi Y D,Chen K Y,et al.Optimization of performance and [44]Nath S K.Geopolymerization behavior of ferrochrome slag and fly composition for glass ceramics prepared from mixing molten slags ash blends.Constr Build Mater,2018,181:487 Chin J Eng,2019,41(10):1288 [45]Karakog M B,Turkmen I,Maras MM,et al.Mechanical (李字，伊耀东，陈奎元，等.冶金熔渣混合制备微品玻璃的组成 properties and setting time of ferrochrome slag based geopolymer 及性能优化.工程科学学报，2019,41(10)：1288) paste and mortar.Constr Build Mater,2014.72:283 [59]Wang Z J,Ni W,Li K Q,et al.Crystallization characteristics of [46]Komnitsas K,Zaharaki D,Bartzas G.Effect of sulphate and nitrate iron-rich glass ceramics prepared from nickel slag and blast anions on heavy metal immobilisation in ferronickel slag furnace slag.Int J Miner Metall Mater,2011,18(4):455 geopolymers.App/Clay Sci,2013,73:103 [60]Zhang S H,Liu L B,Tan K F,et al.Influence of burning3（09）: 72 Lv X X, Tian X K, Yang C, et al. Manganese residues waste on the application  of  sulfur  concrete  production. China Manganese Ind, 2010, 28（2）: 47 （吕晓昕, 田熙科, 杨超, 等. 锰渣废弃物在硫磺混凝土生产中的 应用. 中国锰业, 2010, 28（2）：47） [32] Kim H, Lee C H, Ann K Y. Feasibility of ferronickel slag powder for cementitious binder in concrete mix. Constr Build Mater, 2019, 207: 693 [33] Liu  X  M,  Li  T  Y,  Tian  W  G,  et  al.  Study  on  the  durability  of concrete  with  FNS  fine  aggregate. J Hazard Mater,  2020,  381: 120936 [34] Dash  M  K,  Patro  S  K.  Performance  assessment  of  ferrochrome slag  as  partial  replacement  of  fine  aggregate  in  concrete. Eur J Environ Civil Eng, 2018: 1 [35] Karakoc M B, Türkmen İ, Maraş M M, et al. Sulfate resistance of ferrochrome  slag  based  geopolymer  concrete. Ceram Int,  2016, 42（1）: 1254 [36] Teing  T  T,  Huat  B  B  K,  Shukla  S  K,  et  al.  Effects  of  alkali￾activated waste binder in soil stabilization. Int J GEOMATE, 2019, 17（59）: 82 [37] Liao X W, Chen J, Fan T F, et al. Soil of heavy metal composite pollution by geological polymer stabilization. Chin J Environ Eng, 2018, 12（7）: 2056 （廖希雯, 陈杰, 范天凤, 等. 地质聚合物固化稳定化重金属复合 污染土壤. 环境工程学报, 2018, 12（7）：2056） [38] Yan  C  J,  Guo  L,  Ren  D  M,  et  al.  Novel  composites  based  on geopolymer for removal of Pb (II). Mater Lett, 2019, 239: 192 [39] Li Q Y, He Y, Xu M X, et al. Study on the removal of Ca2+ and Mg2+ in  water  by  the  geopolymer-based  inorganic  membrane. J Funct Mater, 2017, 48（1）: 1215 （李巧云, 贺艳, 徐梦雪, 等. 地质聚合物基无机膜去除水中钙、 镁离子的研究. 功能材料, 2017, 48（1）：1215） [40] Li  K,  Lu  D  Y,  Li  M  H,  et  al.  Research  progress  of  porous geopolymers for thermal insulation. Mater Rev, 2015, 29（23）: 58 （李款, 卢都友, 李孟浩, 等. 多孔地质聚合物保温材料研究进展. 材料导报, 2015, 29（23）：58） [41] Davidovits J. Geopolymers: inorganic polymeric new materials. J Therm Anal, 1991, 37（8）: 1633 [42] Nath S K, Kumar S. Influence of granulated silico-manganese slag on  compressive  strength  and  microstructure  of  ambient  cured alkali-activated fly ash binder. Waste Biomass Valor, 2019, 10（7）: 2045 [43] Nath S K. Geopolymerization behavior of ferrochrome slag and fly ash blends. Constr Build Mater, 2018, 181: 487 [44] Karakoç  M  B,  Türkmen  İ,  Maraş  M  M,  et  al.  Mechanical properties and setting time of ferrochrome slag based geopolymer paste and mortar. Constr Build Mater, 2014, 72: 283 [45] Komnitsas K, Zaharaki D, Bartzas G. Effect of sulphate and nitrate anions  on  heavy  metal  immobilisation  in  ferronickel  slag geopolymers. Appl Clay Sci, 2013, 73: 103 [46] Yu Q Q, Li S L, Li H, et al. Synthesis and characterization of Mn￾slag  based  geopolymer  for  immobilization  of  Co. J Clean Prod, 2019, 234: 97 [47] He P Y, Zhang Y J, Chen H, et al. Development of an eco-efficient CaMoO4 /electroconductive  geopolymer  composite  for  recycling silicomanganese slag and degradation of dye wastewater. J Clean Prod, 2019, 208: 1476 [48] Kim Y, Kim M, Sohn J, et al. Applicability of gold tailings, waste limestone, red mud, and ferronickel slag for producing glass fibers. J Clean Prod, 2018, 203: 957 [49] Yin  X.  The  research  on  preparation  of  inorganic  fiber  by  using high  temperature  ferronickel  molten  slag. Non-Ferrous Min Metall, 2013, 29（5）: 48 （尹雪. 利用镍铁冶炼高温炉渣制备超细矿物无机纤维的研究. 有色矿冶, 2013, 29（5）：48） [50] Liu J, Nie Q Q, Han Y X, et al. Modified mechanism of asphalt by nickel-ferrous slag fiber. J Northeast Univ Nat Sci, 2018, 39（6）: 862 （刘杰, 聂巧巧, 韩跃新, 等. 镍铁矿渣纤维对道路沥青的改性机 理. 东北大学学报: 自然科学版, 2018, 39（6）：862） [51] Tang Y Y. The Test and Design of Heat Silicon Managanese Ore Furnace Slag Produce Mineral Wool [Dissertation].  Xi'an:  Xi'an University of Architecture and Technology, 2015 （唐洋洋. 硅锰矿热炉渣生产矿渣棉的试验和设计[学位论文]. 西安: 西安建筑科技大学, 2015） [52] Zhao G Z, Zhang L L, Cang D Q. Pilot trial of detoxification of chromium  slag  in  cyclone  furnace  and  production  of  slag  wool fibres. J Hazard Mater, 2018, 358: 122 [53] Bai Z T, Qiu G B, Yue C S, et al. Crystallization kinetics of glass￾ceramics  prepared  from  high-carbon  ferrochromium  slag. Ceram Int, 2016, 42（16）: 19329 [54] Ljatifi  E,  Kamusheva  A,  Grozdanov  A,  et  al.  Optimal  thermal cycle  for  production  of  glass-ceramic  based  on  wastes  from ferronickel manufacture. Ceram Int, 2015, 41（9）: 11379 [55] Zhou K J, Zhao Q L, Zhang Y L. Crystallization properties of the glass  ceramics  prepared  from  iron-rich  nickel  slag. Universal J Mater Sci, 2017, 5（2）: 52 [56] Chen  K,  Ke  C  M,  Zhang  J  H.  Crystallization  properties  of silicomanganese slag-based CaO‒MgO‒Al2O3‒SiO2 system glass￾ceramics. J Wuhan Univ Sci Technol, 2015, 38（5）: 346 （陈坤, 柯昌明, 张锦化. 硅锰渣基CaO‒MgO‒Al2O3‒SiO2系矿渣 微晶玻璃晶化性能研究. 武汉科技大学学报, 2015, 38（5）：346） [57] Li Y, Yi Y D, Chen K Y, et al. Optimization of performance and composition for glass ceramics prepared from mixing molten slags. Chin J Eng, 2019, 41（10）: 1288 （李宇, 伊耀东, 陈奎元, 等. 冶金熔渣混合制备微晶玻璃的组成 及性能优化. 工程科学学报, 2019, 41（10）：1288） [58] Wang Z J, Ni W, Li K Q, et al. Crystallization characteristics of iron-rich  glass  ceramics  prepared  from  nickel  slag  and  blast furnace slag. Int J Miner Metall Mater, 2011, 18（4）: 455 [59] [60] Zhang  S  H,  Liu  L  B,  Tan  K  F,  et  al.  Influence  of  burning · 678 · 工程科学学报，第 42 卷，第 6 期