1. 毕业设计(论文)的内容和要求
中国工业不断地飞速发展,工业生产对各种矿产资源的需求也愈来愈大,在不断挖掘利用矿产资源的同时,巨量的固体废弃物也随之产生。
由于这些固体废物目前还没有得到很好的利用,所以大部分废物仍然在地表堆积。
这不仅会占用大量可耕地,更会改变土壤的性质、酸化和毒化土地,进一步加剧生态环境恶化。
2. 参考文献
根据毕业要求指点2.3,毕设期间要进行研究现状调查与总结,要求在开题报告及毕业设计(论文)中涉及的英文文献不少于20篇,其中近5年不少于8篇,英文文献不少于5篇。
以下是与本课题相关的部分文献列表: [1] 韩汤益. 粉煤灰基碱激发材料地聚合反应影响因素研究[D]. 长沙理工大学. 2016.[2] Kong DLY, Sanjayan JG. Damage behavior of geopolymer composites exposed to elevated temperatures[J]. Cement 1344.[5] 张同生. 激发剂对钢渣胶凝材料性能的影响[J]. 建筑材料学报, 2008, 11(4): 469-47.[6] 丁铸, 王淑平. 钢渣水硬活性的激发研究[J]. 山东建材, 2008(4): 47-51.[7] Qiang L, Ruirui X, Chengcheng L, et al. Application of red mud as a basic catalyst for biodiesel production[J]. Journal of Environmental Sciences, 2013(04): 823-829.[8] Recovery of Iron From High-Iron Red Mud by Reduction Roasting With Adding Sodium Salt[J]. Journal of Iron and Steel Research(International), 2012(08): 1-5.[9] 戚焕岭. 氧化铝赤泥处置方式浅谈[J]. 有色冶金设计与研究, 2007(Z1): 121-125.[10] 卜天梅, 李文化, 杨金妮, 等. 利用烧结法赤泥生产水泥的研究[J]. 水泥技术, 2005(02): 67-68.[11] Wu J, Zhang F, Li H, et al. Preparation and reaction mechanism of red mud based ceramic simple bricks[J]. Journal of Wuhan University of Technology-Mater. Sci. Ed., 2010, 25(6): 1001-1005.[12] 彭小芹, 张祺, 李晓盼, 等. 赤泥对水泥固化体性能的影响[J]. 硅酸盐通报, 2015(04): 1100-1104.[13] Removal of ammonium ions from aqueous solutions using zeolite synthesized from red mud[J]. Desalination and Water Treatment, 2015, 57(10): 1-12.[14] Yi Z , Shibin X , Dandan K, et al. Phosphorus removal from domestic sewage by adsorption combined photocatalytic reduction with red mud[J]. DESALINATION AND WATER TREATMENT, 2013, 51(37-39): 7130-7136.[15] Garg M, Singh M, Kumar R. Some aspects of the durability of a phosphogypsum-lime-fly ash binder[J]. Construction and Building Materials, 1996, 10: 273-279.[16] Sunil K. 2003. Fly ash-lime-phosphogypsum hollow blocks for walls and partitions[J]. Building and Environment, 38, 1996: 291-295.[17] Yang M, Qian J S, Pang Y. Activation of fly ash-lime systems using calcined phosphogypsum[J]. Construction and Building Materials, 22, 2008: 1004-1008.[18] Guo T, Malone R F, Rusch K. Stabilized phosphogypsum: Class C fly ash: Portland II cement composites for potential marine applications[J]. EnvironmentalScience and Technology, 35, 2001: 3967-3973.[19] Rusch K A, Guo T, Seals R K. Stabilization of phosphogypsum using class C fly ash and lime: assessment of the potential for marine applications[J]. Journal of Hazardous Materials, 93, 2002: 167-186.[20] 柴俊青, 张健, 沈燕, 等. 磷石膏高温分解对烧制硫铝酸盐水泥性能的影响[J]. 非金属矿, 2013, 36(6): 1-3.[21] Olmez H, Erdem E. The effect of phosphogypsum on the setting and mechanical properties of Portland cement and trass cement[J]. Cement and Concrete Research 19, 1989: 337-384.[22] Potgieter J H, Potgieter S S, McCrindle R I, et al. Aninvestigation into the effect of various chemical and physical treatments of a South African phosphogypsum to render it suitable as a set retarder for cement[J]. Cement and Concrete Research 33, 2003: 1223-1227.[23] Taher M A. Influence of thermally treated phosphogypsum on the properties of Portland slag cement[J]. Resources, Conservation and Recycling, 52, 2007: 2838.[24] Stydom C A, Potgieter J H. Dehydration behavior of a natural gypsum and a phosphogypsum during milling[J]. Thermochimica Acta, 1999, 332: 89-96.[25] 李源. 外加剂对碱激发材料的影响[D]. 广州大学. 2016.[26] Lee NK, Lee HK. Setting and mechanical properties of alkali-activated fly ash/slagconcrete manufactured at room temperature[J]. Construction nzer R, Yu J, Stephan D. Alkali activated slag binder: effect of cations from silicate activators[J]. Materials lez-Fonteboa B, Gonzlez-Taboada I et al. Alkali-activated slag concrete: Fresh and hardened behaviour[J]. Cement Concrete Composites, 2018, 85: 22-31. [29] Fernndez-Jimnez A, Palomo A. Composition and microstructure of alkali activated fly ash binder: Effect of the activator[J]. Cement Concrete Research, 2005, 35(10): 1984-1992.[30] 曹德光, 苏达根, 宋国胜. 低模数硅酸钠溶液的结构及其键合反应特性[J]. 硅酸盐学报, 2004, 32(8): 1036-1039.[31] Hoebbel D, Ebert R. ChemInform Abstract: Sodium Water Glass Solutions - Structure, Properties, and Problems[J]. Cheminform, 1988, 19(24): 41-51.[32] Davidovits J. Geopolymers[J]. Journal of Thermal Analysis, 1991, 37(8): 1633-1656.[33] Huang Y , Lin Z S . Investigation on phosphogypsumsteel slaggranulated blast-furnace slaglimestone cement[J]. Construction Building Materials, 2010, 24(7): 1296-1301.[34] Siyu Duan,Hongqiang Liao,Fangqin Cheng,Huiping Song,Hengquan Yang. Investigation into the synergistic effects in hydrated gelling systems containing fly ash, desulfurization gypsum and steel slag[J]. Construction and Building Materials, 2018, 187.[35] 李琳琳, 苏兴文, 李晓阳, 等. 鞍钢钢渣矿渣制备人工鱼礁混凝土复合胶凝材料[J]. 硅酸盐通报, 2012, 31(01): 117-122.[36] Weiguo Shen,Mingkai Zhou,Wei Ma,Jinqiang Hu,Zhi Cai. Investigation on the application of steel slagfly ashphosphogypsum solidified material as road base material[J]. Journal of Hazardous Materials, 2008, 164(1).[37] 崔孝炜, 倪文, 任超. 钢渣矿渣基全固废胶凝材料的水化反应机理[J]. 材料研究学报, 2017, 31(09): 687-694.[38] 田明阳, 倪文, 张玉燕, 等. 赤泥作矿渣基胶凝材料调整剂的研究[J]. 金属矿山, 2011(12): 148-150.
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