共查询到18条相似文献,搜索用时 62 毫秒
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以铅锌冶炼废渣为主要硅铝原料,以水玻璃为碱性激发剂制备碱激发胶凝材料。实验结果表明:当水玻璃模数为1.5,掺量为6%,水灰比为0.35时,所制得碱激发胶凝材料3 d、7 d和28 d龄期抗压强度均最高,分别达到23.82 MPa,25.34 MPa、33.93 MPa。SEM分析表明:铅锌冶炼废渣碱激发胶凝材料中,凝胶类产物将未反应原料颗粒紧紧黏结在一起,微观结构致密,有助于强度的提高。 相似文献
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在苏联,冶金工业和动力工业的废弃物日益增多,目前,这些废渣的年排放量已超过20亿吨,相当一部分废渣未得到可靠的利用。 这些废渣含有表面活性物质,用机械化学方法对它们进行处理,是利用工业废料生产水泥的新途径。使用机械化学处理方法可以节约大量水泥熟料,可以生产无熟料的水泥。 相似文献
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以粉煤灰、电石渣和脱硫石膏为主要原料,掺加少量矿化剂、黏结剂和造孔剂,采用一次低温烧成工艺,制备出具有多微孔结构的新型无机胶凝材料,并对产品性能进行了研究。采用优化配方,在预热温度为400 ℃、焙烧温度为1 220 ℃、保温时间为25 min条件下制备的多微孔胶凝材料,其吸水率为2.10%、表观密度为1.32 g/cm3,3 d抗压强度为8.56 MPa。通过XRD分析可知,合成材料的主要矿物相为硅酸钙和钙铝黄长石。材料采用工业废渣制备,集多孔性和胶凝性,可部分代替水泥和陶粒制成保温砂浆,达到环保节能的目的。 相似文献
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为促进工业废渣资源化循环利用,制备工业废渣复合再生胶凝材料(RC)及相应泡沫轻质土。利用松香树脂类、蛋白类两种发泡剂和表面活性剂经高速剪切混溶制备复合类发泡剂,通过不同发泡剂种类、搅拌转速和搅拌时间下的RC泡沫土流动度、湿密度和抗压强度优选最佳工艺,不同湿密度和龄期下抗压强度对比RC泡沫土和水泥泡沫土力学性能,干缩和冻融循环试验对比RC泡沫土和水泥泡沫土耐久性,借助XRD分析RC泡沫土成分。结果表明,复合类发泡剂融合了松香树脂类发泡剂稳定性好和蛋白类发泡剂发泡倍数高的优势,RC泡沫土制备过程最佳搅拌转速为200 r/min,搅拌时间为2 min。RC和水泥两种泡沫土流动度均满足规范要求,初期抗压强度相当;随着龄期增加,RC泡沫土强度增长幅度高于水泥泡沫土,28 d和56 d龄期时RC泡沫土强度为水泥泡沫土强度的1.21倍和1.35倍。相同条件下RC泡沫土抗干缩和抗冻融性能优于水泥泡沫土。RC水化产物中增加了钙矾石,且水化硅酸钙含量高于水泥水化产物。 相似文献
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The formation of microstructure in early age cement paste and concrete was examined with an ultrasonic experimental set-up. Research parameters included the influence of curing temperature (isothermal curing at 20, 30 and 40 °C), water/cement ratio (0.40, 0.45 and 0.55) and amount of aggregate. In parallel with the experiments, the cement hydration model HYMOSTRUC was utilized to simulate the formation of the microstructure. In this study, the cement paste was considered as a four-phase system consisting of water, unhydrated cement, hydration products and that part of the hydration product that causes the contact between the hydrating cement grains (so called “bridge volume”). A correlation has been found between the growth of bridge volume calculated with the model and the changes in the pulse velocity. It is believed that ultrasonic pulse velocity (UPV) measurements can represent a valuable tool to investigate the development of the microstructure at early age. 相似文献
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《Journal of the European Ceramic Society》2023,43(2):692-699
The focus of lightweight refractory is equivalent volume replacement that uses lower-density raw materials to replace the original high-density raw materials. In this study, we employ porous mullite microspheres (PMM) to replace mullite particles to realize the weight-lighting of mullite–cordierite saggars used to prepare cathode materials for Li-ion batteries.To confirm that lightweight saggars satisfy the quality standards of production, we conducted various tests, including mechanical properties, thermal shock stability and corrosion resistance. Compared with samples with mullite particles, samples with PMM have a comparatively stable material structure and excellent performance. Furthermore, PMM reduce mullite consumption and enhance their resistance to prevent stress shedding in the corrosion process. 相似文献