制备的碳纳米管的原子排列是一种短程有序排列,是非晶态结构。
The carbon tubes prepared were in short range order with amorphous structure.
但石蜡分子能在较小的范围内保持着短程有序排列,并且具有晶体学中所谓的类质同晶的特性。
However, paraffin wax molecules could keep shortrange regular arrangement and possess the properties of so-called isomorphism in crystallography.
由各类衍射技术和计算机模拟揭示出的种种拓扑及化学短程序大大丰富了液体结构短程有序的物理内涵。
The topological and chemical short-range orders, revealed by various diffraction method and computer simulations, enrich the intrinsic physical meaning on short-range order in liquid structure.
并且,化合物形成合金熔体中存在的化学短程有序结构是否及如何对合金的凝固行为及组织产生影响?。
Furthermore, whether and how do these abnormal transitions with temperature of CSROs affect the solidification behavior of compound-forming melts?
非晶合金的稳定性是制备大块非晶合金的关键,而弛豫后形成的短程有序结构对非晶中的晶体相形核有重要的影响。
Stability of an amorphous alloy is a key for synthesizing bulk amorphous alloy, short range order formed after relaxation has important influence on nucleation of crystalline phase in amorphous.
交联结构对软、硬段之间的相分离产生更大的影响,但对硬段相中短程有序区的氢键的影响与交联结构的类型有关。
The existence of cores and cross-linked structure between core and shell made much effect on the phase behavior of the nanocomposites.
在马氏体状态时效,DO_3长程有序度无显著变化,没发生类似在母相态的再有序化,主要是原子短程无序化。
During parent phase aging, DO_3 atomic reordering occurs, leading to an increase in the degree of long range order.
在马氏体状态时效,DO_3长程有序度无显著变化,没发生类似在母相态的再有序化,主要是原子短程无序化。
During parent phase aging, DO_3 atomic reordering occurs, leading to an increase in the degree of long range order.
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