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引用本文:	牛旭婧,朋改非,何杰,类泽灏.多尺度钢纤维组合与碳纳米管对RPC力学性能影响[J].建筑材料学报,2020,23(1):216-223

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多尺度钢纤维组合与碳纳米管对RPC力学性能影响
牛旭婧¹, 朋改非², 何杰², 类泽灏²
1.清华大学水沙科学与水利水电工程国家重点实验室，北京100084;2.北京交通大学土木建筑工程学院，北京100044

摘要:

研究了多尺度钢纤维组合与碳纳米管对活性粉末混凝土(RPC)力学性能的影响，并通过压汞法（MIP）对掺加碳纳米管前后RPC内部的孔结构进行了测定.结果表明：不同尺度的钢纤维组合掺加相对于单掺大尺度钢纤维可以显著提高RPC的力学性能；双掺总量一定的大、中尺度钢纤维时，提高中尺度钢纤维比例会降低RPC的力学性能；双掺1.5%大尺度钢纤维和0.5%中尺度钢纤维时RPC的性能最佳，其抗压强度、劈裂抗拉强度、抗弯强度和断裂能分别比单掺2.0%大尺度钢纤维时提高61%、33.3%、22.7%和30.4%；在三掺钢纤维基础上掺加占水泥质量0.10%的碳纳米管后,RPC的抗压强度、劈裂抗拉强度、抗弯强度和断裂能分别提高了8.4%、2.6%、4.4%和6.1%，这与碳纳米管的填充效应和桥接阻裂作用，以及各纤维间的牵制效应有关.另外，碳纳米管分散不均时会引起RPC局部应力集中，其分散效果对RPC的力学性能有显著影响.

关键词: 活性粉末混凝土多尺度钢纤维组合碳纳米管力学性能

DOI：103969/j.issn.1007 9629202001032

分类号:

基金项目:国家自然科学基金资助项目(51878032,51278048,51078030,50978026)；北京市自然科学基金资助项目(8172036)

Influence of Multi scale Steel Fiber Combination and Carbon Nanotube on Mechanical Properties of Reactive Powder Concrete

NIU Xujing¹, PENG Gaifei², HE Jie², LEI Zehao²

1.State Key Laboratory of Hydroscience and Engineering, Tsinghua University, Beijing 100084, China;2.School of Civil Engineering, Beijing Jiaotong University, Beijing 100044, China

Abstract:

The influence of multi scale steel fiber combination and carbon nanotube on mechanical properties of reactive powder concrete(RPC) was investigated. Moreover, pore structure of RPC before and after adding carbon nanotube was also determined by means of mercury intrusion porosimetry(MIP). The results show that compared with macro fiber, adding multi scale steel fiber can improve the mechanical properties of RPC significantly. At an identical total dosage of steel fiber, the mechanical properties of RPC incorporating macro fiber and meso fiber decrease gradually with the increase of proportion of meso fiber. The compressive strength, tensile splitting strength, bending strength and fracture energy of RPC are optimized by simultaneously addition of 1.5% macro fiber and 0.5% meso fiber to increase by 6.1%, 333%, 22.7% and 30.4% relative to that with the addition of 2.0% macro fiber, respectively. In addition, adding 0.10% carbon nanotube can efficiently increase the compressive strength, tensile splitting strength, bending strength and fracture energy of RPC incorporating three types of steel fiber(i.e. macro fiber, meso fiber and micro fiber), exhibiting the increments of 8.4%, 2.6%, 44% and 6.1%, resrespectively. This is mainly related to the filling effect and capacity for bridging cracks of carbon nanotube, and the snubbing effect between multi scale fibers. Meanwhile, dispersion effect of carbon nanotube can significantly affect the mechanical properties of RPC. If carbon nanotube is not dispersed uniformly, local stress concentration will occur, thus resulting in a decrease in the mechanical properties of concrete.

Key words: reactive powder concrete（RPC） multi scale steel fiber combination carbon nanotube mechanical property