English translation for "混凝土弹性模量"

modulus of elasticity of concrete
modulus of elasticity parellel to grain

Related Translations:

动态弹性模量:  dynamic elastic modulusdynamic modulus of elasticity

切线弹性模量:  tangent modulus of elasticity

动静弹性模量:  dynamic and static elasticity modulus

持续弹性模量:  sustained modulus of elasticity

弦弹性模量:  chord modulus of elasticity

弹性模量比:  elastic modular ratioelastic modulus ratioratio of moduli of elasticityratioofmoduliofelasticity

挠曲弹性模量:  flexural modulus of elasticity

体积弹性模量:  bulk elastic modulusbulk modulus of elasticitymodulus of compressionmodulus of elasticity of volumemodulus of volume elasticitymodulus of volumetric elasticityvolume modulus of elasticityv

静弹性模量:  static modulus of elasticity

持久弹性模量:  sustained modulus of elasticity

Example Sentences:

	1.	Modulus of elasticity of concrete 混凝土弹性模量30
	2.	In order to estimate young ' s modulus of lightweight concrete more accurately than existing empirical formula , three regression equations are obtained in light of material properties test 并根据材料特性试验，回归出了三个比现有经验公式与实测值符合得更好的用来估算轻骨料混凝土弹性模量的经验公式。 3
	3.	Modify above model along with altering structural form or the constitution of the bridge , such as different standard , steel ratio , steel pipe diameter , concrete module , brace allocation , the length of concrete of the main ribs , suspending pole mode and cable local vibrations , calculate the variety of dynamic character , analyze this factors which will affect . 2 对斜拉拱桥自振特性进行参数分析,分别考虑了不同规范、含钢率、拱肋钢管直径、混凝土弹性模量、横撑布置、拱肋段混凝土长度、吊杆形式对自振特性的影响,最后考虑了斜拉索局部振动对自振特性的影响。
	4.	The analytic model of this bridge is established . a lot of influencing factors such as identifying and adjusting of structure parameter , construction technology , construction monitoring method , temperature effect , concrete young ' s modulus and shrinkage and creep effect are considered in construction monitoring and controlling . the construction control of this bridge is realized through construction monitoring , back coupling and forecasting and the preplanned target is reached at last 通过建立大桥结构分析模型，选择合适的影响因素，包括结构参数识别及调整、施工工艺、施工监测方法、温度效应、混凝土弹性模量及其收缩、徐变效应等，并经监测、反馈、预测，实现大桥线形和应力的不断调整和控制，达到了预定的目标。
	5.	Concrete elastic modulus and concrete creep and shrinkage variety at different time are reckoned in by using time increment analysis method and concrete creep and shrinkage secondary force is calculated by using effective elastic modulus . bridge stability analysis program is developed on the base of structure matrix displacement method , the program adopts visual basic language , has friendly interface and visual data input windows . the buckling safety factor of currently finished structure is given as result 为计入混凝土弹性模量的变化及混凝土徐变收缩随混凝土的龄期与外荷载加载时间不同而变化的影响，采用时间增量法对每个计算阶段根据其阶段内时步数进行循环，以计算时段内弹性应力、应变增量和徐变、收缩产生的应力应变增量，利用有效弹性模量法计算混凝土徐变收缩次内力，在此基础上，结合结构矩阵位移法的基本理论编制开发了计入混凝土时效效应的高墩大跨径桥梁稳定分析程序。
	6.	5 . the influence of soil - structure dynamic interaction is studied , which in different mass distribution , elastic modulus of concrete , stiffness distribution and soil dynamic characteristics . as a result of seismic response analysis , an idea is presented for structure seismic reduction by replacement of soft soil 5 、基于前述的研究成果,在原有数值模型上改变上部结构的质量分布、混凝土弹性模量、刚度分布以及土性等参数,研究在土-结构动力相互作用影响下结构动力特性和地震反应的变化规律。
	7.	Considering the characteristics of internal force and structures of simply supported pc bridges , a novel automatically step - up method ( asum ) , taking into account the influence of steel arrangement , steel ratio , stress losses of tendons and time - dependent concrete modulus , to analyze creep and shrinkage effects is presented . this method accepts all kinds of expressions of creep and shrinkage , and it is easy to calculate total stress , strain of concrete and steel and deflection of bridge at any time , the expected prediction accuracy will be obtained by further dividing the time - step within duration 首先，针对预应力混凝土简支梁桥的受力特征和构造特点，提出了徐变效应分析的全量形式自动递进法，可考虑截面上钢筋位置、配筋率、预应力钢筋松弛、混凝土弹性模量随时间变化等影响，且计算式可适用于任何形式的收缩、徐变特性表达式；建立的公式可方便地求解任意时刻混凝土、钢筋的应力与应变和跨中梁体的竖向变形，计算精度可方便地通过计算时段的细分来控制，直至给出满意的结果。
	8.	To be the wall material of gtdw , comparing with the conventional concrete diaphragm wall , plastic concrete has a much lower elastomeric modulus that approaches to that of the around soil . as a result , the deformation of the plastic concrete diaphragm wall under pressure will be similar with that of the around stratums . the stress state of the iii diaphragm wall is greatly improved and thus improvement will make it easy for the diaphragm wall to fit the stress changes by the thinner of wall or the frequent changes of the water level 塑性混凝土作为抓斗薄墙的墙体材料，相比于普通混凝土弹性模量显著降低，使其更接近于围土材料的变形模量，所以塑性混凝土防渗墙在其受力后的变形能很好地于周围地层相协调，因而能大大改善防渗墙的应力状况，更好地适应墙体变薄及长江水位频繁变化而带来的应力变化。
	9.	Abstract : based on the fundamental principle of hypothesis strain equivalence , itwas investigated a physical concept of high strength concrete at minus temperature ( hscmt ) freezing damage parameter , the elastic modulus of frost concrete with anti freeziug admixture and without antifreezing admixture built and it was analyzed their variate process and the condition adaptated . it is purpose to judge hscmt frost failure process 文摘:从应变等效性假说的基本原理出发，研究了负温混凝土冻结损伤参数? ?弹性模量法中受冻后测试的损伤混凝土弹性模量的物理概念，从而分析了掺防冻剂混凝土及不掺防冻剂混凝土受冻后的弹性模量变化过程及其选用该参数的适应性条件，为判断负温高强混凝土材料冻结失效过程提供保证。
	10.	In the paper , not only such factors as reinforcing steel bar , various placing temperature of concrete in case of lift placements , lift thickness , time interval between lifts , the variation of elastic modules of concrete , heat of hydration , the temperature changes of environment but the effect of creep deformation and autogenous volume change on the temperature field and thermal stress field of reinforced concrete face - slab are considered 本论文在分析中，考虑了钢筋、混凝土分层浇筑、入仓温度、浇筑层厚、施工间歇、混凝土弹性模量变化、水化热发散规律、外界气温等因素的变化及混凝土徐变和自生体积变形等因素对面板温度场和温度应力的影响。

Similar Words：

"混凝土打碎机" English translation, "混凝土大板结构" English translation, "混凝土大块体" English translation, "混凝土带输送灌注塔" English translation, "混凝土单块" English translation, "混凝土当量" English translation, "混凝土挡墙" English translation, "混凝土捣固" English translation, "混凝土捣实器" English translation, "混凝土捣碎机" English translation