1) in-situ cube strength
现场立方体强度;砖仔强度
2) in situ cube strength
现场立方体强度
3) cubic strength
立方体强度
4) cube strength
立方强度
1.
This text is solid to 55 high strengths concrete cube strength to measure the data made the analysis,and gave to compute the formula.
对55组高强混凝土立方强度实测数据作了分析,并给出了计算公式。
5) cubic compressive strength
立方体抗压强度
1.
Study on cubic compressive strength calculation of recycled aggregate concrete
再生混凝土立方体抗压强度推算公式研究
2.
Based on the test of 27 group cubes and 5 group prisms,the relationship between cubic compressive strength and water-to-cement ratio,the relationship between cube compressive strength and prism strength,and the relationship between cubic compressive strength and Young s modules of recycled concrete are investigated.
对再生骨料混凝土27组立方体试件和5组棱柱体试件进行了试验,主要研究了再生骨料混凝土的水灰比与立方体抗压强度的关系,以及立方体抗压强度与棱柱体抗压强度和弹性模量之间的换算关系。
6) cube compressive strength
立方体抗压强度
1.
Based on the optimum design of mix proportion for Dry-mixing Self-Compacting Concrete(DSCC),cube compressive strength and cleavage tensile strength were investigated.
以干拌自密实混凝土的配合比优化设计为基础,对干拌自密实混凝土的立方体抗压强度以及劈裂抗拉强度等进行了试验研究,根据试验数据,分析了立方体抗压强度与劈裂抗拉强度之间的关系并给出了回归公式,试验结果表明,干拌自密实混凝土劈裂抗拉强度高于普通混凝土。
2.
Based on using waste glasses,by 10%,15%,25%,50%,75% and 100% in the mate-rial to replace natural sand and make C25 concrete,cube compressive strength of 3 d,7 d,14 d,28 d are tested.
按照0、10%、15%、25%、50%、75%、100%的比例取代河砂,配制C25普通混凝土,分别测试其3、7、14、28d立方体抗压强度。
3.
By using cube compressive strength test and SEM,the inherent reason of the bad influence can be explored.
通过立方体抗压强度试验和电子显微镜(SEM)研究高含盐量对水泥土强度影响的内在机理。
补充资料:Hilbert立方体
Hilbert立方体
Hflbert cube
s沁口目s脚止)).这是一个内容丰富成果丰硕的研究领域. 【AI]中有绝好的介绍及参考文献.1翻卜时立方体〔f口加时。谕.;几几诵epT佃二.钾.,l HIIb叮空间(托1饮成sP别笼)l:的子空间,它的点x一(xl,xZ,…)满足条件0‘x,‘(合)一,,2,·…Hilbert立方体是一个紧统(印代甲aCtllnl),拓扑等价(同胚)于可数多个区间的T叮oHoB积,即毛盯OHo.立方体(T泪如加v CUbe)I从。.这是具有可数基的度量空间类中的万有空间(u苗记岛沮sp即笼)(yP“coH摩粤化定理(Ul笋ohnn毖tri皿山nd笙幻reln)). B .A.nac卜川劝B撰【补注】到山比d立方体的拓扑结构是在无穷维拓扑这一领域内得到研究的(见无穷维空间(而丽记~dinrn-
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条