1) theory
[英]['θɪəri] [美]['θɪrɪ]
复氧理论
1.
Advances and prospects in the research of water reaeration theory and reaeration coefficient;
水体大气复氧理论和复氧系数研究进展与展望
2) oxygen storage theory
储氧理论
4) complex potential theory
复势理论
1.
Based on the series expansion technology in complex potential theory established by Muskhelishvili the complex stress functions can be estabished.
根据Muskhelishvili复势理论的级数展开技术,构造了合适的各区复应力函数;然后,利用边界上位移、力的连续性条件和远场的性态,通过等式两边同次幂指数的系数比较,将问题转化为线性方程组的求解;结合叠加原理,获得混凝土在此情况下环向应力的解析解答。
2.
The fundamental solutions for a crack under concentrated pseudo-traction are given by using the Muskhelishvili′s complex potential theory and by the solution of Riemann-Hilbert problem.
采用 Muskhelishvili复势理论和 Riemann-Hilbert 问题的解法,给出了裂纹表面受伪集中力作用时的基本解。
5) copy theory
复制理论
1.
To get a clear understanding of the physical meaning of dyadic shift, some basic concepts of copy theory are briefly introduced first.
从复制理论的角度出发 ,在简要介绍复制理论的基础上 ,通过研究复制序列的位置相关性 ,揭示了并元移位实际上是一种特殊的距离定义 ,从而较为深刻地解释了并元移位概念的物理意义 。
2.
At first, this paper accounts the copy theory of signals briefly, and then emphasizes the introduction to a new catch method of pseudo\|random codes.
在简要介绍信号的复制生成理论的基础上 ,着重介绍了利用复制理论提出的一种新的伪随机码捕捉方法。
6) composite theory
复合理论
1.
Recycling law of aged asphalt based on composite theory of material;
基于材料复合理论的老化沥青再生规律
2.
The results in-dicated that the composite theory of FRC is more perfect than that of FRP and the composite theory of FRC is suitable to the cement bas ed composite material with larger fiber space only.
研究结果表明,FRP复合理论比较完善,推导出的FRC复合理论只适用于纤维间距较大的水泥基复合材料,否则必须综合考虑纤维对基体损伤过程的影响,即考虑纤维与基体复合后带来的耦合效应。
补充资料:2-[2-[2-(2-苯氧乙氧基]乙氧基]乙氧基]乙醇
CAS:36366-93-5
分子式:C14H22O5
中文名称:2-[2-[2-(2-苯氧乙氧基]乙氧基]乙氧基]乙醇
英文名称:Ethanol,2-[2-[2-(2-phenoxyethoxy)ethoxy]ethoxy]
2-(2-(2-(2-phenoxyethoxy)ethoxy)ethoxy)-ethanol
tetraethylene glycol monophenyl ether
分子式:C14H22O5
中文名称:2-[2-[2-(2-苯氧乙氧基]乙氧基]乙氧基]乙醇
英文名称:Ethanol,2-[2-[2-(2-phenoxyethoxy)ethoxy]ethoxy]
2-(2-(2-(2-phenoxyethoxy)ethoxy)ethoxy)-ethanol
tetraethylene glycol monophenyl ether
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