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1)  cyclic axial compression
循环轴压荷载
1.
To study the behavior of circular tube confined HSC stub columns,6 specimens were tested under cyclic axial compression.
为研究圆钢管约束高强混凝土短柱的轴压力学性能,进行6个短柱试件在循环轴压荷载作用下的试验研究。
2.
To study the axial load behavior of square tube confined HSC short columns,12 specimens was tested under cyclic axial compression.
为研究方钢管约束高强混凝土短柱的轴压力学性能,进行了12个试件在循环轴压荷载作用下的试验研究。
2)  compressive cyclic loading
压缩循环载荷
3)  cyclic loading
循环载荷
1.
Fatigue failure of rubber composite under cyclic loading;
橡胶复合材料在循环载荷下的疲劳损伤特性
2.
Space-time evolution rules study of acoustic emission locations in rock under cyclic loading;
循环载荷作用下岩石声发射时空演化规律
3.
Experimental research on the acoustic emission characteristic of sandstone under the different experimental condition of cyclic loading;
循环载荷作用时不同实验条件下砂岩的声发射特征实验研究
4)  cyclic load
循环载荷
1.
Nonlinear finite element analysis on seismic behavior of two kinds of slabs under cyclic load;
循环载荷作用下两类楼板抗震性能的非线性有限元分析
2.
Experimental study on composite slabs under cyclic load;
循环载荷作用下组合楼板的试验研究
3.
In order to study the elas to plastic response of the beam to column welded connection under the seismic load and improve the earthquake resistant performance of welded joint,the non linear FEM analysis of "H" and "Dog Bone" Type of welded connection under the simulating seismic cyclic load was carried out by utilizing the ANSYS programming package.
为了研究建筑钢结构梁柱焊接接头在地震作用下的弹塑性响应 ,提高焊接接头的抗震性能 ,采用大型有限元软件ANSYS对建筑钢结构中比较常见的H形梁柱焊接接头和“狗骨式”焊接接头在模拟地震循环载荷作用下进行了弹塑性有限元分析 ,得到了梁端加载点的载荷 -位移滞回曲线和节点焊接接头的等效应力分布。
5)  cyclic loads
循环载荷
6)  cyclic loading
循环荷载
1.
Deformation properties of rock mass with intermittent cracks under cyclic loading;
循环荷载下断续裂隙岩体的变形特性
2.
Study on one-dimensional consolidation behavior of saturated clay under cyclic loading;
循环荷载作用下黏弹性地基一维固结性状研究
3.
Experimental study on degradation of stiffness of saturated soft clay under undrained cyclic loading;
循环荷载作用下软黏土刚度软化特征试验研究
补充资料:钚轴再循环
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性质:从天然铀和低浓铀的乏燃料中提取生成的钚,制成铀-钚混合燃料在堆内重复使用,这种循环称作钚铀再循环。这将减少对天然铀的需求量和节省浓缩铀所需的分离功。再生的钚更适合用作快堆的燃料,实现燃料增殖,使铀资源的利用率提高几十倍。钚铀再循环有发展前途。

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