可以认为颗粒与基体间弱界面的解聚是熔融石英颗粒复合材料韧化的原因。
The decohesion of the weak interface between particle and matrix may be considered as the origin of toughening.
本文研究了生物降解聚合物纳米粒载药系统。
Biodegradable polymeric nanoparticles as drug delivery systems have been investigated in this dissertation.
根据醇盐水解聚结的反应机理对以上结果作了解释。
The results have been ex-plained in terms of hydrolysis-condensation reaction of alkoxide.
在变圆过程中微管及肌原纤维解聚,自发性收缩停止。
During the rounding process spontaneous contractions stopped and microtubules and myofibrils depolymerized.
十二烷基硫酸钠或胍盐存在下,半夏蛋白解聚成亚基。
Pinellin dissociated into subunits in the presence of sodium dodecyl sulfate or guanidine hydrochloride.
在联合发生后,染色质纤维解聚成环状附着在侧带上。
After synapsis, unwound chromatin fibers in the form of loops are in association with the lateral elements.
水解聚丙烯酰胺被广泛应用于油田以提高原油的采收率。
Hydrolyzed polyacrylamide (HPAM) has been widely used in oil field for boosting the crude oil recovery ratio.
开发可降解聚丙烯(PP)发泡制品具有广阔的发展前景。
It has a wide market to develop degradable foamed PP products.
最后通过一个实例的描述来探讨模型聚合与解聚的有关问题。
Finally, it gives a example to deal with problems in the model aggregation and disaggregation.
微管的动态变化包括解聚成微管蛋白及重组成扁平形微管网。
The dynamic changes, of MT included: MT disaggregated into tubulin, and a flat-shaped microtubules-network was reorganized.
以肝素钠为原料,经成盐、酯化、解聚和纯化得到依诺肝素钠。
Enoxaparin sodium was prepared from heparin sodium via salinization, esterification, depolymerization and purification.
目的:介绍生物可降解聚合物及其在药物纳米控释系统中的应用。
Objective: To introduce biodegradable polymers and their application to nanometer-sized controlled drug delivery systems.
介绍用甲醇醇解法把聚酯或共聚酯解聚成二元酸二甲酯和二元醇。
The polyester or copolyester can be converted into dimethyl terephthalate of binary acid and glycol by method of methanolysis.
一些生物可降解聚合物,例如聚酯,已经作为辅料应用在药理学中。
Some biodegradable polymers such as polyesters have already been employed as excipients in pharmacology.
聚四氟乙烯塑料的热稳定性非常好,但在高温时也能发生解聚反应。
PTFE possess of excellent heat stability. but it can be depolymerize at high temperature.
一些生物可降解聚合物,例如聚酯,已经作为辅料应用在药理学中。
Some biodegradable polymers such as polyesters hae already been employed as excipients in pharmacology.
以钠硼解石天然矿粉为原料,经水热解聚和相转化制备出硼酸钙产品。
The calcium borate product was prepared with natural ulexite powder, through hydrothermal depolymerization and phase inversion.
解聚的状态可以帮助转录的完成,预示着这个区域内的基因是活跃的。
This uncoiled condition is thought to facilitate TRANSCRIPTION and probably indicates an area where genes are active.
该文提出了一种基于最差子空间分解聚类的非线性系统模糊辨识方法。
This paper proposed a fuzzy identification method for nonlinear systems which were based on decomposing clustering of the worst subspace.
探讨了聚酯(PET)废料的解聚机理,确定其合理解聚方法为醇解。
The degrading mechanism of polyester (PET) was studied, and practicable process of PET degradation is found to be alcoholysis.
肌动蛋白的网络是一个动态的结构,持续不断地进行定向的聚合和解聚。
The actin network is a very dynamic structure with continuous directional polymerization and disassembly .
通过分解聚集和继承层次结构,您简化了模型,在定义子系统时使其更易分析。
By collapsing aggregation and inheritance hierarchies, you simplify your model, making it easier to analyze when you define subsystems.
生物分解聚合物就像个支架,研究专家表示这个支架能支撑,让脑细胞增生。
The biodegradable polymer ACTS like a scaffold and researchers say that it can support the growth of new brain cells.
纯水中PET的微波解聚是一种新的回收利用废pet聚酯材料的绿色化学方法。
It is a new technology of recycling waste PET and of green chemistry.
直到最近,PCL的并没有被广泛应用在生物降解聚合物由于成本原因,大量使用。
Until recently, PCL was not widely used in significant quantities for biodegradable polymer applications due to cost reasons.
它的作用机理独特,通过诱导和促进微管蛋白聚合形成稳定结构,从而抑制微管解聚。
It possesses a unique mechanism of action as promoters of tubulin aseembly and inhibitors of microtubule disassembly.
非有机材料必须被删除,除非它们是由几个新的淀粉基生物降解聚合物,随着时间的推移。
Non-organic materials must be removed, unless they are made of several new starch-based polymers that biodegrade over time.
这些数据及曲线的获得对理解聚合物电老化机理和绝缘材料的合成改性提供重要参考价值。
These data and curves provide very important reference value to understand the electrical degradation mechanism of polymers and synthesis modification of insulation materials.
结果5f能抑制反应体系吸光值升高,提示它对微管蛋白聚合具有抑制作用并能抑制其解聚。
Results 5f decreased the Absorption values of the reaction system. and markedly inhibited not only tubulin polymerization but also tubulin depolymerization.
结果5f能抑制反应体系吸光值升高,提示它对微管蛋白聚合具有抑制作用并能抑制其解聚。
Results 5f decreased the Absorption values of the reaction system. and markedly inhibited not only tubulin polymerization but also tubulin depolymerization.
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