活性粉末混凝土高温后冲击力学性能研究  被引量:11

Impact mechanical properties of reactive powder concrete after exposure in high temperature

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作  者:王立闻[1] 庞宝君[1] 林敏[1] 张凯[1] 陈勇[1] 王少恒[1] 

机构地区:[1]哈尔滨工业大学空间碎片高速撞击研究中心,哈尔滨150080

出  处:《振动与冲击》2012年第16期27-32,共6页Journal of Vibration and Shock

基  金:国家空间碎片专题研究基金项目(kjsp06211)

摘  要:利用分离式Hopkinson压杆系统,采用铅片作为整形器,分别对常温下、400℃、600℃及800℃高温过火后的RPC试样进行单轴冲击压缩实验。研究高温后钢纤维对RPC材料动态力学性能及吸能特性的影响规律。结果表明,高温过火前后钢纤维对RPC均有增强和增韧的作用。高温后因RPC塑性流动性能的增强,导致钢纤维的增韧作用减弱。RPC动态抗压强度高温后损失的速率高于韧性指标。分析RPC材料冲击压缩过程的能量机制,发现钢纤维提高了RPC的能量吸收率,因此能量吸收能力也得到了增强。利用SEM扫描电镜,从RPC材料微观结构变化的角度分析了其高温后宏观力学性能降低的原因。Uniaxial-compression split Hopkinson pressure bar (SHPB) experiments were performed for reactive powder concrete (RPC) samples. Both the untreated specimens and those after exposure in high temperature (400℃, 600℃ and 800℃ ) were tested in order to investigate the influences of mixed steel fibers on dynamic mechanisms and energy absorption of RPC concrete after exposure in high temperature. The results show, steel fibers improve the strength and toughness of RPC before and after exposure in high temperature. After exposure in high temperature, due to a higher plastic flow property of PRC, the improving toughness effect attenuates. The losing ratio of compression strength for RPC is higher than that of toughness parameter. Energy absorption ratio and energy absorption ability for RPC are improved by mixed steel fibers. The scanning electron microscope (SEM) technology was used to investigate the micro-structural change of the RPC material and the correlation between micro-structure and mechanical properties after burnt was discussed.

关 键 词:活性粉末混凝土 分离式HOPKINSON压杆 高温过火后 动态力学性能 吸能特性 

分 类 号:TU528.572[建筑科学—建筑技术科学]

 

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