1) energy-trapped theory
能阱理论
2) Potential well theory
势阱理论
3) trap theory
陷阱理论<冶>
4) energy theory
能量理论
1.
This paper,based on fatigue energy theory,discusses the principle that materials'fatigue limit can be determined by thermographic method.
基于能量理论,阐述了利用红外热像方法确定材料疲劳极限的原理,并利用红外热像仪对具有矩形截面的钢试件进行了疲劳试验,通过记录疲劳试验过程中试件表面的温度变化,经处理后得到了该种材料的疲劳极限。
2.
Setting the gravity earth-retaining wall which is the most important in earth-retaining wall as example,it gets the soil pressure calculation using coulomb theory and energy theory and makes the stability checking calculation.
以挡土墙中最为重要的重力式挡土墙为例,分别用库仑理论和能量理论对挡土墙进行土压力计算,并进行稳定性验算,比较分析计算结果,表明能量理论比库仑理论更具有广泛性、有效性和准确性。
3.
Due to the limitation of the traditional theory of soil pressure applied on retaining wall, the limit analysis theory and the energy theory are adopted to calculate the limit load of rigid retaining wall.
针对传统挡土墙土压力计算理论的局限性,运用极限理论分析荷载,用能量理论计算挡土墙的土压力。
5) theoretical energy consumption
理论能耗
1.
Theoretical energy consumption and theoretical energy consumption voltage for aluminium electrolysis with inert anode;
惰性阳极铝电解的理论能耗和理论能耗电压
2.
Theoretical energy consumption and theoretical energy consumption voltage in aluminium electrolysis;
铝电解的理论能耗和理论能耗电压
6) energy band theory
能带理论
1.
Therefore,there exists a photonic band-gap structure in photonic crystal,which can be studied by using energy band theory of solid.
因此,光子晶体中光子的运动将类似于周期性势场中电子的运动,会产生类似的电磁波或光波的"能带"结构,也可以借用固体能带理论的基本方法来研究光子晶体的带隙。
2.
Starting from the sp~2 hybrid orbit theory for carbon and energy band theory,this thesis studied the formation of crystal graphene(monlayer of carbon atoms) and its electronic structure.
本文从碳原子的sp~2杂化理论和能带理论出发,初步研究了单层碳原子晶体(graphene)的形成及其电子结构。
补充资料:单量子阱(见量子阱)
单量子阱(见量子阱)
single quantum well
单且子阱sillgle quantum well见量子阱。
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