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碱激发火山灰对近海高氯环境适用性的试验研究 被引量:1

Laboratory investigation of applicability of alkali-activated pozzolana in offshore high chloride environment
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摘要 近海道路桥梁工程受海水侵蚀严重,因此亟需寻求一种耐盐侵蚀的新材料。现对掺入氯化钠(Na Cl)的碱激发火山灰(AP)净浆的抗压强度进行测试,同时通过X射线衍射(XRD)、热重分析(TGA)两种微观测试手段,探求Na Cl对AP净浆强度的影响作用。试验结果表明:AP净浆抗压强度随Na Cl掺入量的增加而增加,Na Cl掺量为30%的净浆强度是无Na Cl净浆强度的2.1倍。XRD、TGA测试结果表明,掺加Na Cl的AP净浆中有新水化物弗里德尔盐(FS)和氢氧化钠(Na OH)生成,这两种水化物的生成可能是造成净浆强度提高的主因,两种水化物生成的越多,AP净浆结构越优化,强度提高越显著。AP作为一种新胶凝材料,可适用于高氯盐环境下的近海道路桥梁工程中。 Offshore roads and bridges were severely eroded by seawater, thus, a new cementitious material of salt-erosion is now urgently needed. Compressive strength of alkali-activated pozzolana (AP) paste mixed with NaCl, X-ray diffraction (XRD) and thermal gravimetric analysis (TGA) were conducted to investigate the influence of NaCl affect strength of AP paste. The results showed that the compressive strength of AP paste strength increases with increase of mixed NaCl,the strength of paste of 30% NaCl content is 2.1 times than the strength of paste without NaCl. XRD, TGA test results showed that two hydrates Friedel salt (FS) and sodium hydroxide (NaOH)were generating in the AP paste which mixed NaCl, these hydrates may be responsible for improving the strength paste, the more hydrates generated, the more optimization AP paste structure, finally the strength increased more significant.AP as a new cementitious material,applicable to high chloride environment of coastal roads and bridge projects.
作者 王运周 费月英 杨建国
机构地区 甘肃交通职业技术学院 交通运输部科学研究院
出处 《中国建材科技》 2016年第2期42-43,101,共3页 China Building Materials Science & Technology
基金 交通部西部交通建设科技资助项目(2013318J01100)
关键词 氯化钠 碱激发火山灰 强度 弗里德尔盐 氢氧化钠 近海工程 NaCl Alkali-activated pozzolana Strength Friedel salt NaOH Offshore project
分类号 TU528.44 [建筑科学—建筑技术科学]
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参考文献9

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二级参考文献22

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2016年 第2期

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