点阵常数 meaning in Chinese
lattice constant
latticeconstant
Examples
- The lattice constant determination of metals - method of x - ray diffractometer
金属点阵常数的测定方法x射线衍射仪法 - The change of lattice constants and the cell volume expansion are calculated , which make an important contribution to the increase of the magnetocrystalline anisotropy
计算了引起材料磁晶各向异性大大增加的点阵常数的变化和体积膨胀量。 - Alloy fabricated by arc melting consists of continuous nbssi matrix and dispersive distributed nb particles . the metastable nbasi phase is found to have a tetragonal crystal structure with space group p42 / n and lattice parameters a = 1 . 021nm , c = 0 . 519nm
O 0 )金属间化合物的显微组织由连续的nb3si基体、弥散分布的nb粒子组成,其中亚稳态相nb3si为四方结构,空间群p42 n ,点阵常数a l - After the cu - al mixed powder was milled 96h , the lattice constant of cu ( 111 ) plane became 0 . 3653nm , and the diffraction peaks of aluminum have disappeared completely , which showed that aluminum atoms have dissolved in crystal lattice of copper
当cu - al混合粉末球磨时间大于96h时, cu的( 111 )面的点阵常数变为0 . 3653nm , al的衍射峰已完全消失。通过分析可知,经过96h的球磨, al原子已经完全吲溶于cu的晶格中。 - In the " card - packing " , a znf16pc molecule takes an angle of 52 respect to the substrate . while in the " brick - stacking " , the molecules arrange in a square lattice with lattice constant as 14 . 94a and 14 . 28a under room temperature and 300 respectively . from room temperature to about 150 , f - ptcdi molecules follow the vollmer - weber rule when grown on quartz substrate , as revealed by afm images
在“ card - packing ”模式中,分子平面与石英衬底平面成52左右的二面角;在“ brick - stacking ”模式中,较低温度下,分子以四方点阵平行排列,点阵常数为14 . 94 ;在300的衬底温度下发生构象调整,点阵常数减小为14 . 28 ,分子采取更高密度的堆积方式。