苗希望等：典型铁合金渣的资源化综合利用研究现状与发展趋势 677 发展趋势.中国冶金，2017,27(4)：73) [16]Singh G V P B,Subramaniam K V L.Production and [3]Choi S,Kim J,Oh S,et al.Hydro-thermal reaction according to characterization of low-energy Portland composite cement from the CaO/SiOz mole-ratio in silico-manganese slag.Mater Cycles post-industrial waste.J Clean Prod,2019,239:118024 Waste Manage,2017,19(1):374 [17]Rahman M A,Sarker P K,Shaikh F U A,et al.Soundness and [4] Yin S H,Ma J,Yan B,et al.Characteristics of several different compressive strength of Portland cement blended with ground nickel slags and their feasibility for use in cement and concrete. granulated ferronickel slag.Constr Build Mater,2017,140:194 Bull Chin Ceram Soc,2019,38(7):2268 [18]Katsiotis N S,Tsakiridis P E,Velissariou D,et al.Utilization of (殷素红，马健，颜波，等.几种不同镍渣的特性及其用于水泥和 ferronickel slag as additive in Portland cement:a hydration 混凝土中的可行性.硅酸盐通报，2019,38(7)：2268) leaching study.Waste Biomass Valor,2015,6(2):177 [5]Choi Y C,Choi S.Alkali-silica reactivity of cementitious materials [19]Alahrache S,Winnefeld F,Champenois J B,et al.Chemical using ferro-nickel slag fine aggregates produced in different activation of hybrid binders based on siliceous fly ash and Portland cooling conditions.Constr Build Mater,2015,99:279 cement.Cem Concr Compos,2016,66:10 [6]Bai Z T,Qiu G B,Peng B,et al.Synthesis and characterization of [20]Haha M B,Le Saout G,Winnefeld F,et al.Influence of activator glass-ceramics prepared from high-carbon ferrochromium slag type on hydration kinetics,hydrate assemblage and microstructural RSC Ad,2016,6(58):52715 development of alkali activated blast-furnace slags.Cem Concr [7]Hao XT.Preparation of Low Temperature Ceramic Cementitious Res,2011,41(3):301 Materials by Activation of Ferrochrome Slag [Dissertation]. [21]Piyapanuwat R,Asavapisit S.Performance of lime-BHA solidified Kunming:Kunming University of Science and Technology,2016 plating sludge in the presence of Na SiO;and Na,CO.J Erviron (郝旭涛.铬铁渣活化制备低温陶瓷胶凝材料[学位论文].昆明： Manage,2011,92(9:2222 昆明理工大学，2016) [22]Allahverdi A,Ahmadnezhad S.Mechanical activation of [8]Lu H F,Tian W G,Xu J L,et al.Research progress on silicomanganese slag and its influence on the properties of comprehensive utilization of ferronickel slag.Mater Rev,2018, Portland slag cement.Powder Technol,2014,251:41 32(Suppl 2):435 [23]Kumar S,Garcia-Trinanes P,Teixeira-Pinto A,et al.Development (陆海飞，田伟光，徐佳林，等.红土镍矿冶炼镍铁废渣综合利用 of alkali activated cement from mechanically activated silico- 的研究进展.材料导报，2018,32（增刊2435） manganese (SiMn)slag.Cem Concr Compos,2013,40:7 [9] Li KQ,FengL,GaoS J.Preparation of cementitious materials for [24]Liu LY,Liu Y,Zhang K,et al.Study on chemical activation of backfilling by using nickel slag.Chin Eng,2015,37(1):1 nickel iron slag-cement composite cementitious material.Cem (李克庆，冯琳，高术杰.镍渣基矿井充填用胶凝材料的制备.工 Eng,2016(2):8 程科学学报，2015,37(1)：1) (刘梁友，刘云，张康，等.镍铁渣-水泥复合胶凝材料化学活化的 [10]Zhang X F,Ni W,Wu J Y,et al.Hydration mechanism of a 研究水泥工程，2016(2)：8) cementitious material prepared with Si-Mn slag.Int J Miner [25]Zhou X T,Hao X T,Ma Q M,et al.Effects of compound chemical Metall Mater,2011,18(2):234 activators on the hydration of low-carbon ferrochrome slag-based [11]Nath S K,Kumar S.Evaluation of the suitability of ground composite cement.J Environ Manage,2017,191:58 granulated silico-manganese slag in Portland slag cement.Constr [26]Navarro R,Alcocel E G,Sanchez I,et al.Mechanical properties of Build Mater,2016,125:127 alkali activated ground SiMn slag mortars with different types of [12]Wu Q S,Wu Y,Tong W H,et al.Utilization of nickel slag as raw aggregates.Constr Build Mater,2018,186:79 material in the production of Portland cement for road [27]Qi A,Liu X H,Wang Z W,et al.Mechanical properties of the construction.Constr Build Mater,2018,193:426 concrete containing ferronickel slag and blast furnace slag powder. [13]Hao X T,Zhou X T,Cai F W,et al.Property of ferrochrome slag Constr Build Mater,2020,231:117120 based low-temperature cementitious material.Bull Chin Ceram [28]Acharya P K,Patro S K.Acid resistance,sulphate resistance and S0c,2015,34(7):2013 strength properties of concrete containing ferrochrome ash (FA) (郝旭涛，周新涛，蔡发万，等.铬铁渣基低温陶瓷胶凝材料的性 and lime.Constr Build Mater,2016,120:241 能研究.硅酸盐通报，2015,34(7)：2013) [29]Jena S,Panigrahi R.Performance assessment of geopolymer [14]Hao X T,Zhou X T,Luo Z Q,et al.Effects of compound concrete with partial replacement of ferrochrome slag as coarse admixtures on the properties of ferrochrome slag based composite aggregate.Constr Build Mater,2019,220:525 materials.J Funct Mater,2015,46(13):13029 [30]Saha A K.Sarker P K.Sustainable use of ferronickel slag fine (郝旭涛，周新涛，罗中秋，等.复合型外加剂对铬铁渣基复合材 aggregate and fly ash in structural concrete:mechanical properties 料性能的影响.功能材料，2015,46(13)：13029) and leaching study.J Clean Prod,2017,162:438 [15]Frias M,de Rojas M IS,Rodriguez C.The influence of SiMn slag [31]Shareef U,Cheela V R S,Raju S G.Study on physical and on chemical resistance of blended cement pastes.Constr Build mechanical properties of quartzite and silico-manganese slag as Ma1er,2009,23(3):1472 alternative material for coarse aggregate.IntJ Sci Res Dev,2015,发展趋势. 中国冶金, 2017, 27（4）：73） Choi  S,  Kim  J,  Oh  S,  et  al.  Hydro-thermal  reaction  according  to the CaO/SiO2 mole-ratio in silico-manganese slag. J Mater Cycles Waste Manage, 2017, 19（1）: 374 [3] Yin  S  H,  Ma  J,  Yan  B,  et  al.  Characteristics  of  several  different nickel  slags  and  their  feasibility  for  use  in  cement  and  concrete. Bull Chin Ceram Soc, 2019, 38（7）: 2268 （殷素红, 马健, 颜波, 等. 几种不同镍渣的特性及其用于水泥和 混凝土中的可行性. 硅酸盐通报, 2019, 38（7）：2268） [4] Choi Y C, Choi S. Alkali-silica reactivity of cementitious materials using  ferro-nickel  slag  fine  aggregates  produced  in  different cooling conditions. Constr Build Mater, 2015, 99: 279 [5] Bai Z T, Qiu G B, Peng B, et al. Synthesis and characterization of glass-ceramics  prepared  from  high-carbon  ferrochromium  slag. RSC Adv, 2016, 6（58）: 52715 [6] Hao X T. Preparation of Low Temperature Ceramic Cementitious Materials by Activation of Ferrochrome Slag [Dissertation]. Kunming: Kunming University of Science and Technology, 2016 （郝旭涛. 铬铁渣活化制备低温陶瓷胶凝材料[学位论文]. 昆明: 昆明理工大学, 2016） [7] Lu  H  F,  Tian  W  G,  Xu  J  L,  et  al.  Research  progress  on comprehensive  utilization  of  ferronickel  slag. Mater Rev,  2018, 32(Suppl 2): 435 （陆海飞, 田伟光, 徐佳林, 等. 红土镍矿冶炼镍铁废渣综合利用 的研究进展. 材料导报, 2018, 32(增刊2): 435） [8] Li K Q, Feng L, Gao S J. Preparation of cementitious materials for backfilling by using nickel slag. Chin J Eng, 2015, 37（1）: 1 （李克庆, 冯琳, 高术杰. 镍渣基矿井充填用胶凝材料的制备. 工 程科学学报, 2015, 37（1）：1） [9] Zhang  X  F,  Ni  W,  Wu  J  Y,  et  al.  Hydration  mechanism  of  a cementitious  material  prepared  with  Si ‒Mn  slag. Int J Miner Metall Mater, 2011, 18（2）: 234 [10] Nath  S  K,  Kumar  S.  Evaluation  of  the  suitability  of  ground granulated silico-manganese slag in Portland slag cement. Constr Build Mater, 2016, 125: 127 [11] Wu Q S, Wu Y, Tong W H, et al. Utilization of nickel slag as raw material  in  the  production  of  Portland  cement  for  road construction. Constr Build Mater, 2018, 193: 426 [12] Hao X T, Zhou X T, Cai F W, et al. Property of ferrochrome slag based  low-temperature  cementitious  material. Bull Chin Ceram Soc, 2015, 34（7）: 2013 （郝旭涛, 周新涛, 蔡发万, 等. 铬铁渣基低温陶瓷胶凝材料的性 能研究. 硅酸盐通报, 2015, 34（7）：2013） [13] Hao  X  T,  Zhou  X  T,  Luo  Z  Q,  et  al.  Effects  of  compound admixtures on the properties of ferrochrome slag based composite materials. J Funct Mater, 2015, 46（13）: 13029 （郝旭涛, 周新涛, 罗中秋, 等. 复合型外加剂对铬铁渣基复合材 料性能的影响. 功能材料, 2015, 46（13）：13029） [14] Frías M, de Rojas M I S, Rodríguez C. The influence of SiMn slag on  chemical  resistance  of  blended  cement  pastes. Constr Build Mater, 2009, 23（3）: 1472 [15] Singh  G  V  P  B,  Subramaniam  K  V  L.  Production  and characterization  of  low-energy  Portland  composite  cement  from post-industrial waste. J Clean Prod, 2019, 239: 118024 [16] Rahman  M  A,  Sarker  P  K,  Shaikh  F  U  A,  et  al.  Soundness  and compressive  strength  of  Portland  cement  blended  with  ground granulated ferronickel slag. Constr Build Mater, 2017, 140: 194 [17] Katsiotis  N  S,  Tsakiridis  P  E,  Velissariou  D,  et  al.  Utilization  of ferronickel  slag  as  additive  in  Portland  cement:  a  hydration leaching study. Waste Biomass Valor, 2015, 6（2）: 177 [18] Alahrache  S,  Winnefeld  F,  Champenois  J  B,  et  al.  Chemical activation of hybrid binders based on siliceous fly ash and Portland cement. Cem Concr Compos, 2016, 66: 10 [19] Haha M B, Le Saout G, Winnefeld F, et al. Influence of activator type on hydration kinetics, hydrate assemblage and microstructural development  of  alkali  activated  blast-furnace  slags. Cem Concr Res, 2011, 41（3）: 301 [20] Piyapanuwat R, Asavapisit S. Performance of lime-BHA solidified plating sludge in the presence of Na2SiO3 and Na2CO3 . J Environ Manage, 2011, 92（9）: 2222 [21] Allahverdi  A,  Ahmadnezhad  S.  Mechanical  activation  of silicomanganese  slag  and  its  influence  on  the  properties  of Portland slag cement. Powder Technol, 2014, 251: 41 [22] Kumar S, García-Triñanes P, Teixeira-Pinto A, et al. Development of  alkali  activated  cement  from  mechanically  activated  silico￾manganese (SiMn) slag. Cem Concr Compos, 2013, 40: 7 [23] Liu L Y, Liu Y, Zhang K, et al. Study on chemical activation of nickel  iron  slag-cement  composite  cementitious  material. Cem Eng, 2016（2）: 8 （刘梁友, 刘云, 张康, 等. 镍铁渣-水泥复合胶凝材料化学活化的 研究. 水泥工程, 2016（2）：8） [24] Zhou X T, Hao X T, Ma Q M, et al. Effects of compound chemical activators on the hydration of low-carbon ferrochrome slag-based composite cement. J Environ Manage, 2017, 191: 58 [25] Navarro R, Alcocel E G, Sánchez I, et al. Mechanical properties of alkali activated ground SiMn slag mortars with different types of aggregates. Constr Build Mater, 2018, 186: 79 [26] Qi  A,  Liu  X  H,  Wang  Z  W,  et  al.  Mechanical  properties  of  the concrete containing ferronickel slag and blast furnace slag powder. Constr Build Mater, 2020, 231: 117120 [27] Acharya P K, Patro S K. Acid resistance, sulphate resistance and strength  properties  of  concrete  containing  ferrochrome  ash  (FA) and lime. Constr Build Mater, 2016, 120: 241 [28] Jena  S,  Panigrahi  R.  Performance  assessment  of  geopolymer concrete  with  partial  replacement  of  ferrochrome  slag  as  coarse aggregate. Constr Build Mater, 2019, 220: 525 [29] Saha  A  K,  Sarker  P  K.  Sustainable  use  of  ferronickel  slag  fine aggregate and fly ash in structural concrete: mechanical properties and leaching study. J Clean Prod, 2017, 162: 438 [30] Shareef  U,  Cheela  V  R  S,  Raju  S  G.  Study  on  physical  and mechanical  properties  of  quartzite  and  silico-manganese  slag  as alternative material for coarse aggregate. Int J Sci Res Dev, 2015, [31] 苗希望等： 典型铁合金渣的资源化综合利用研究现状与发展趋势 · 677 ·