small crystallites
小晶粒
interlocking crystallites
交错的晶粒
Three kinds of oxyfluoride glass were fabricated with the aim of studying the relation between Er 3+ luminescence and the fluoride micro-crystallite formed in the oxyfluoride glass.
为了研究铒离子的发光和氟氧化物玻璃中形成的氟化物微晶的关系,制备了三种掺铒的氟氧化物玻璃。
The crystallite size was determined using X-ray diffraction analysis.
晶粒尺寸是通过X射线衍射分析确定的。
The material exhibited a fine crystallite structure under the electron microscope.
在电子显微镜下,该材料呈现出细致的晶粒结构。
Researchers studied the growth of crystallites in the thin film.
研究人员研究了薄膜中晶粒的生长。
The crystallite orientation affected the mechanical properties of the material.
晶粒取向影响了材料的机械性能。
Nanoparticles can form crystallites with unique properties.
纳米颗粒可以形成具有独特性能的晶粒。
The crystallite morphology was analyzed using scanning electron microscopy.
利用扫描电子显微镜分析了晶粒的形貌。
Heat treatment can alter the crystallite size in the alloy.
热处理可以改变合金中的晶粒尺寸。
The crystallite boundaries play a crucial role in material behavior.
晶粒边界在材料行为中起着至关重要的作用。
The crystallite structure of the mineral was examined using spectroscopic techniques.
利用光谱技术检查了矿物的晶粒结构。
The crystallite distribution was found to be uniform across the sample.
发现样品中晶粒分布均匀。
small crystallites
小晶粒
interlocking crystallites
交错的晶粒
Three kinds of oxyfluoride glass were fabricated with the aim of studying the relation between Er 3+ luminescence and the fluoride micro-crystallite formed in the oxyfluoride glass.
为了研究铒离子的发光和氟氧化物玻璃中形成的氟化物微晶的关系,制备了三种掺铒的氟氧化物玻璃。
The crystallite size was determined using X-ray diffraction analysis.
晶粒尺寸是通过X射线衍射分析确定的。
The material exhibited a fine crystallite structure under the electron microscope.
在电子显微镜下,该材料呈现出细致的晶粒结构。
Researchers studied the growth of crystallites in the thin film.
研究人员研究了薄膜中晶粒的生长。
The crystallite orientation affected the mechanical properties of the material.
晶粒取向影响了材料的机械性能。
Nanoparticles can form crystallites with unique properties.
纳米颗粒可以形成具有独特性能的晶粒。
The crystallite morphology was analyzed using scanning electron microscopy.
利用扫描电子显微镜分析了晶粒的形貌。
Heat treatment can alter the crystallite size in the alloy.
热处理可以改变合金中的晶粒尺寸。
The crystallite boundaries play a crucial role in material behavior.
晶粒边界在材料行为中起着至关重要的作用。
The crystallite structure of the mineral was examined using spectroscopic techniques.
利用光谱技术检查了矿物的晶粒结构。
The crystallite distribution was found to be uniform across the sample.
发现样品中晶粒分布均匀。
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