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CNT/CC埋置前后循环力敏特性研究 被引量:5

Feasibility Research of Carbon Nanotube/cement Composites used for Structural Stress Monitoring
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摘要 将碳纳米管分散于水泥基材料中,制备得到碳纳米管水泥基复合材料(CNT/CC)。研究了多壁碳纳米管(multj-walled nanotubes,简称MWNTs)掺量为0.05%的CNT/CC试件,探讨了相关测试参数以及龄期对试件电阻率的影响,并对比了硅灰的掺加对试件导电性能的作用。进一步研究了其在弹性范围应力作用下试件的循环压敏性能,以及埋置大试件中其循环压敏性能,探讨其用于结构应力监测的可行性。研究结果表明,10V测试电压30min时试件的电阻率相对稳定,并且当试件养护到28d后,试件的电阻率基本保持不变。未掺加硅灰后试件的电阻率远小于掺加硅灰的试件。进一步研究发现,试件电阻率能够随应力的变化呈线性变化,且呈现良好的循环性能。埋置大试件后,表现出良好的循环压敏特性,且保持相当的一致性。 In this paper, the specimen ( CNT / CC) of the 0.05 wt. % content MWNTs was prepared by mature dispersion in formed process. The influences of relevant test parameters and age of the specimen on resistivity were investigated. And the conductive properties of the specimen were compared with the mixing of silica fume. Furthermore, the cyclic piezoresistive property of the specimen before and after internal installed in concrete was studied when the stress was in the elastic range. The results showed that the resistivity of the specimen was relatively stable under the 10V test voltage for 30 min, and its value remained unchanged when curried after 28d. The resistivity was much smaller without silicon fume than mixing silica fume. Further studies showed that the resistivity changed linearly with the stress and the piezoresistivity of the specimen was maintained a fairly consistent after internal installed in cement mortar.
作者 刘小艳 傅峰 刘静 刘爱华 洪盛祥
机构地区 河海大学力学与材料学院
出处 《粉煤灰综合利用》 CAS 2015年第4期8-11,共4页 Fly Ash Comprehensive Utilization
基金 "十二五"国家科技支撑计划(2012BAB03B02)
关键词 碳纳米管 水泥基复合材料 电学性能 埋置 压敏特性 carbon nanotube cement based composites electricity internal installed piezoresistivity
分类号 TQ172.13 [化学工程—水泥工业]
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参考文献20

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二级参考文献46

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共引文献202

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引证文献5

二级引证文献16

粉煤灰综合利用
2015年 第4期

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