1·When the magnetic field was weak, no filaments appeared, and the microparticles formed a crystalline lattice in the chamber.
当磁场较弱旳时侯,没有任何轴线出现,微粒在容器里形成晶格结构。
2·The rotation of the crystalline lattice and plastic activity on slip systems are mainly concentrated in the region around voids.
由于约束较少,孔洞周围和两孔洞间的区域塑性变形较大,晶体的转动和滑移主要集中在孔洞周围以及两孔洞间的区域。
3·Hydrogen bonding interactions are also observed between the host framework and the included water guests to further sustain the whole crystalline lattice.
主体骨架与客体水分子之间的氢键相互作用进一步稳定了此结构。
4·Its individual water molecules each adopt a dipolar V-shaped configuration via thermodynamic constraints, and they then interact via mophodynamic constraints to form a crystalline lattice.
受到热力学的限制,它的每一个水分子都变成了V形配置结构的偶极子。 然后他们通过形态动力学的约束相互作用,形成一个晶体点阵。
5·With the increase of deposition temperatures, the crystalline sizes were increased but the crystal lattice distortions were decreased.
随着沉积温度的降低,晶粒尺寸减小,晶格失配度增大;
6·The crystalline morphology and lattice constants of silica bricks in several status were investigated by the optic microscope, scanning electron microscope and X-ray diffraction.
利用光学显微镜、扫描电镜和X射线衍射仪研究了几种不同状态硅砖的晶体形貌和晶格常数。
7·The surface area of crystalline clay minerals is highly dependent on the extent of lattice expansion.
结晶粘土矿物的表面积主要依赖于晶格膨胀的程度。
8·The selecting principle of crystalline growth direction was researched from crystal habit, lattice structure and crystal brittleness of sapphire crystal.
并从蓝宝石晶体的结晶习性、晶格结构及晶体脆性等方面研究晶体生长方向的选取原则。
9·Transmission electron microscopy (TEM) and high resolution electron microscopy (HREM) indicate that nano crystalline diamonds have hexagonal lattice and cubic lattice.
透射电镜(TEM)和高分辨电镜(HREM)分析表明,所制备的纳米晶金刚石为立方金刚石和六方金刚石晶体。
10·There existing out-fields in the solution, the dynamic equation of solute diffuseness in the solution is deduced from the lattice theory of liquid quasi-crystalline structure.
从液体似晶结构的“格子”理论出发,推导了有外场存在情况下溶液溶质扩散转移的动力学方程。