建筑科学与工程学报
建築科學與工程學報
건축과학여공정학보
Journal of Architecture and Civil Engineering
2015年
6期
36-42
,共7页
混杂纤维%再生骨料混凝土%ABAQUS%框架%节点%滞回曲线%等效粘滞阻尼系数
混雜纖維%再生骨料混凝土%ABAQUS%框架%節點%滯迴麯線%等效粘滯阻尼繫數
혼잡섬유%재생골료혼응토%ABAQUS%광가%절점%체회곡선%등효점체조니계수
hybrid fiber%recycled aggregate concrete%ABAQUS%frame%joint%hysteresis curve%equivalent viscous damping coefficient
利用再生钢纤维与聚丙烯纤维(TANK纤维)对再生骨料混凝土(RAC)进行了性能增强,并进行了相应的基本材性试验,利用所得数据确定了混杂纤维掺量(质量分数)0%,0.3%,0.5%,1.0%下的纤维再生混凝土本构方程;利用有限元软件ABAQUS对不同混杂纤维掺量RAC框架节点进行了拟静力非线性分析,得出相应的滞回曲线、骨架曲线、刚度退化曲线,并分析了其耗能性能和等效粘滞阻尼系数。结果表明:混杂纤维能够较为有效地改善RAC的基本力学性能,同时对于框架节点的抗震性能亦有较为明显的改善,并且随着混杂纤维掺量的增大,其抗震性能均有所提高。
利用再生鋼纖維與聚丙烯纖維(TANK纖維)對再生骨料混凝土(RAC)進行瞭性能增彊,併進行瞭相應的基本材性試驗,利用所得數據確定瞭混雜纖維摻量(質量分數)0%,0.3%,0.5%,1.0%下的纖維再生混凝土本構方程;利用有限元軟件ABAQUS對不同混雜纖維摻量RAC框架節點進行瞭擬靜力非線性分析,得齣相應的滯迴麯線、骨架麯線、剛度退化麯線,併分析瞭其耗能性能和等效粘滯阻尼繫數。結果錶明:混雜纖維能夠較為有效地改善RAC的基本力學性能,同時對于框架節點的抗震性能亦有較為明顯的改善,併且隨著混雜纖維摻量的增大,其抗震性能均有所提高。
이용재생강섬유여취병희섬유(TANK섬유)대재생골료혼응토(RAC)진행료성능증강,병진행료상응적기본재성시험,이용소득수거학정료혼잡섬유참량(질량분수)0%,0.3%,0.5%,1.0%하적섬유재생혼응토본구방정;이용유한원연건ABAQUS대불동혼잡섬유참량RAC광가절점진행료의정력비선성분석,득출상응적체회곡선、골가곡선、강도퇴화곡선,병분석료기모능성능화등효점체조니계수。결과표명:혼잡섬유능구교위유효지개선RAC적기본역학성능,동시대우광가절점적항진성능역유교위명현적개선,병차수착혼잡섬유참량적증대,기항진성능균유소제고。
Adding steel fiber and TANK fiber into recycled aggregate concrete (RAC) to enhance its performance , the corresponding basic material property tests were carried out . The constitutive equation of the RAC was determined by using the obtained experimental data ,which had different hybrid fiber content (mass fraction) 0% ,0 .3% ,0 .5% ,1 .0% .The finite element software ABAQUS was used to conduct pseudo‐static nonlinear analysis of the RAC frame joints with different hybrid fiber contents .The hysteresis curves ,skeleton curves and the stiffness degradation curves were obtained ,the energy dissipation capacity and equivalent viscous damping coefficients were analyzed .The results show that hybrid fiber can be more effective to improve the basic mechanical properties of the RAC .Meanwhile ,the seismic performance of the frame joints has a more significant improvement . With the increasing of hybrid fiber content , the seismic performance of RAC can be improved .
