邓宗才,丁建明
BFRC中玄武岩纤维分散性与弯曲韧性试验研究
Experimental Study on the Dispersibility and Flexural Toughness of Basalt Fibers in BFRC
2020年1期 No.285 P47-50
玄武岩纤维混凝土;分散性;峰值强度;残余强度;弯曲韧性值
Basalt fiber reinforced concrete; Dispersibility; Peak strength; Residual strength; Flexural toughness value
2020年1期 No.285 P47-50
10.19761/j.1000-4637.2020.01.047.04
国家自然科学基金项目(51578021)
邓宗才,丁建明
北京工业大学 城市与重大工程安全减灾省部共建重点实验室,100124
邓宗才,丁建明.BFRC中玄武岩纤维分散性与弯曲韧性试验研究[J].混凝土与水泥制品,2020(1):47-50.
DENG Z C,DING J M.Experimental Study on the Dispersibility and Flexural Toughness of Basalt Fibers in BFRC [J].China Concrete and Cement Products,2020(1):47-50.
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BFRC中玄武岩纤维分散性与弯曲韧性试验研究
英文名 :
Experimental Study on the Dispersibility and Flexural Toughness of Basalt Fibers in BFRC
刊期 :
2020年1期 No.285 P47-50
关键词 :
玄武岩纤维混凝土;分散性;峰值强度;残余强度;弯曲韧性值
Key words :
Basalt fiber reinforced concrete; Dispersibility; Peak strength; Residual strength; Flexural toughness value
刊期 :
2020年1期 No.285 P47-50
DOI :
10.19761/j.1000-4637.2020.01.047.04
文章编号 :
基金项目 :
国家自然科学基金项目(51578021)
作者 :
邓宗才,丁建明
单位 :
北京工业大学 城市与重大工程安全减灾省部共建重点实验室,100124
邓宗才,丁建明
邓宗才,丁建明.BFRC中玄武岩纤维分散性与弯曲韧性试验研究[J].混凝土与水泥制品,2020(1):47-50.
DENG Z C,DING J M.Experimental Study on the Dispersibility and Flexural Toughness of Basalt Fibers in BFRC [J].China Concrete and Cement Products,2020(1):47-50.
摘要
参数
结论
参考文献
引用本文
摘要:提出了一种有助于纤维分散的搅拌工序,给出了一种测量纤维分散性的简易方法,分析了不同纤维掺量(5 kg/m3、10 kg/m3、15 kg/m3)对玄武岩纤维混凝土(BFRC)的纤维分散性、基本力学性能及弯曲韧性的影响。结果表明,搅拌工序可使纤维在基体中均匀分散,亦可降低纤维在搅拌过程中的损伤;随纤维掺量的增加,BFRC力学性能先提高后降低,其对BFRC弯曲韧性试验中的峰值强度、残余强度及弯曲韧性值的影响规律亦是如此;BFRC的力学性能及弯曲韧性在纤维掺量为10 kg/m3时最佳。
Abstract: A stirring process which helps the fiber disperse and a simple measurement method of fiber dispersion were proposed, and the influence of different fiber content (5 kg/m3, 10 kg/m3, 15 kg/m3) on the fiber dispersibility, basic mechanical properties and flexural toughness of basalt fiber reinforced concrete (BFRC) were analysed. The results show that the stirring process can evenly disperse the fibers in the matrix, and reduce the damage of the fibers during the stirring process. With the increase of fiber content, the mechanical properties of BFRC increase first and then decrease, which is true for its influence on the peak strength, residual strength and flexural toughness value in BFRC flexural toughness test. The mechanical properties and flexural toughness of BFRC are best when the fiber content is 10 kg/m3.
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