叶片厚度 meaning in English
blade thichkness
blade thickness
thickness of blade
Examples
- The trees with thick cutin layer , high stoma density , thick stockade tissue , high ratio of stockade tissue thickness to sponge tissue thickness , and high sedimentation of leaf tissue structure are of greater drought resistance
叶片厚度、尤其是角质层的厚度和海绵组织厚度是评价供试含笑抗旱性的重要解剖指标。 - Drought resistances of leaves of 13 rasberry and blackberry were measured based on 7 xeromorphic indexes , including thickness of leaves , ratio of palisade tissue thickness to cutis tissue , thickness extent of palisade cell density , thickness of cuticular , thickness of two sides of cutis
摘要选取7项叶片旱生结构指标(叶片厚度,栅栏组织厚度叶肉组织厚度,细胞密集度,角质层厚度,上、下表皮厚度) ,观察测定了13个树莓和黑莓品种的叶片的相关指标。 - T . media cv . hicksii seedling " s total leaf area , specific leaf area , biomass , blade ' s thickness , apparent quantum efficiency ( aqy ) and the activity of hill reaction in one - layer shading are biggest . it shows that the ability using weak light is the strongest , which is favour of the accumulation of assimilating outgrown , and that it grows suitably at the place in shading
一层遮荫下生长的植株叶面积、比叶面积、叶片厚度、生物量、叶绿素含量、表观量子效率及hill反应活力最大,说明它利用弱光的能力最强,有利于同化产物的积累,适宜于在遮荫处生长。 - The results showed that the differences of leaf thickness , cutin layer thickness , stockade tissue thickness , sponge tissue thickness , ratio of stockade tissue thickness to sponge tissue thickness , tightness of leaf tissue structure , sedimentation of leaf tissue structure and stoma density were significant , while the differences of the sizes of upper epidermis and lower epidermis were not
叶片厚度、角质层厚度、栅栏组织厚度、栅栏组织与海绵组织厚度的比值、叶片结构紧密度和气孔密度等值越大的含笑,受旱危害愈轻,其抗旱性就越强。 - The flow equations are solved using finite difference technique . using body - fitted curvilinear coordinate system treated the boundary conditions . by iteratively solving the flow governing equation and the blade equation , the design of axial flow pump impeller in the quasi - three - dimensional rotational flow can be performed according to the angular momentum distribution , the blade which was designed in the lifting method , flow channel and the blade thickness given
其次在流动无粘性、不可压及考虑叶片厚度的条件下,依据叶轮内的流动特性,推导了叶轮内三维流动周向平均流动控制方程以及叶片方程;在贴体坐标系中,采用有限差分法求解流动方程和叶片方程;在采用升力法设计出的叶片作为初始叶片、给定叶片速度矩分布、叶片厚度分布和叶轮轴面流道几何形状条件下,迭代求解流动控制方程及叶片方程,实现了轴流泵叶轮的准三维方法设计。