蠕变过程中出现的主要结构变化为纤维重排、富碳界面层的氧化以及基质中晶体的生长。
The main structure changes in the creep process were fiber rearrangement, the oxidation of the C-rich interfacial layer and crystal growth within the matrix.
本文报道利用二氧化硅微粒胶体溶液在玻璃和KDP晶体基质上制备多孔二氧化硅薄膜。
We report herein about the investigation on porous silica coatings prepared from colloidal silica solution on optical glasses and KDP crystal substrates.
聚丙烯酸钠模仿了生物矿化中有机基质对无机晶体生长的调制作用。
Sodium polyacrylate mimicked the role of organic matrix in modulating crystal growth in biomineralization.
即选取海藻酸钠和壳聚糖两种具有高生物活性和组织相容性材料,作为可调控磷灰石晶体生长的基质模板。
Namely, select the two kinds of sodium alginate and chitosan with high biological activity and organization of material compatibility, used as the control matrix apatite crystal growth template.
骨由镶嵌在胶原纤维中的钙、磷和碳晶体的基质和骨细胞(少于骨体积的5%)组成,胶原纤维提供强度和弹性。
Bone consists of a matrix of crystals of calcium, chiefly the phosphate and carbonate, embedded among collagen fibres, providing strength and elasticity, and bone cells (less than 5% of its volume).
这样的装置具有高的能量密度提供能力并兼具中性有机塑性晶体基质例如丁二腈的有利性能。
Such devices have high energy density delivery capacity combined with the favourable properties of a neutral organic plastic crystal matrix such as succinonitrile.
晶体表面因复盖有细胞碎片和基质而容易引起聚集,聚集的晶体与暴露的基底膜接触,对微结石的形成起核心作用。
Some crystalline aggregates coming in contact with an exposed basement membrane become attached and play an important role in the formation of microliths.
尿结石是异常生物矿化的产物,由无机晶体和有机基质组成。
Urinary stone is a kind of product of unusual biomineralization. It is made up of inorganic crystal and organic matrix.
本文分析可调谐激光晶体的激光性质同基质成分和晶体结构的关系。
The dependence between lasing properties and host composition and crystal structure of tunable laser crystals are studied in this paper.
本论文主要考察在不同有机基质作用下碳酸钙晶体的成核及结晶行为。
In this dissertation, the nucleation and growth of CaCO3 crystals under different organic additives were investigated.
说明血液灌注液比晶体液的保护效果明显。可能是血液在心肌缺血状态提供氧基质,保证细胞代谢和维持内环境的稳定。
The possible mechanism is that blood can provide energy substrate for ischemic myocardium and maintain the cellular metabolism and homeostasis.
说明血液灌注液比晶体液的保护效果明显。可能是血液在心肌缺血状态提供氧基质,保证细胞代谢和维持内环境的稳定。
The possible mechanism is that blood can provide energy substrate for ischemic myocardium and maintain the cellular metabolism and homeostasis.
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