与木材不同,复合材料不需要浸置和压力处理,对于防腐剂、生物杀灭剂,可以方便的进入其结构种。
Unlike wood, composite materials do not need to be dipped or pressure-treated for preservatives, or biocides, to be easily incorporated into their matrix.
水在生物组织内的流动程度,可以由一个被称为表观扩散复合系数(ADC)的参数去量化之。
The extent of water mobility within biological tissues can be quantified by a parameter called the apparent diffusion coefficient (ADC).
因为这种在骨科机械表面形成的多糖-蛋白质复合物(生物被膜)层,为细菌创造了一个复杂的环境。
This glycocalyx layer, which is formed on the surface of the orthopaedic devices, creates a complex environment for the bacteria.
一般来说,木塑复合材料的含水率和其微生物降解的易感性有明显的相关关系。
Generally, there is a clear correlation between overall moisture content in WPC and its susceptibility to microbial degradation.
微生物对木塑复合材料的影响有三个等级水平。
There are three "levels" of microbial effects on wood-plastic composites.
结果确定了生物反应器的内腔结构,生物反应器由控制系统和细胞培养室两部分构成,能置于培养箱中对软骨细胞材料复合物进行动态培养。
Results We optimized the bioreactor configuration and bioreactor compose of control system and culture chamber. Bioreactor can be put into incubator and culture cartilage by dynamic state.
结果确定了,生物反应器的内腔结构。生物反应器由控制系统和细胞培养室两部分构成,能置于培养箱中对软骨细胞材料复合物进行动态培养。
Results We optimized the bioreactor configuration and bioreactor compose of control system and culture chamber. Bioreactor can be put into incubator and culture cartilage by dynamic stale.
综述了壳聚糖复合生物材料的研究现状。
The recent research and development of chitosan composites were reviewed.
结果表明,生物有机复合肥有明显的增产作用。
The results prove that biological organic complex fertilizer can increase yield.
目前,配体-复合物理论的核心内容是配体与蛋白结合启动特定的生物作用以及配体如何与蛋白一对一的结合。
Currently, the theory about ligands - compounds that bind to proteins and trigger a specific biological action - and how they bind to proteins runs along the lines of a one person-one vote paradigm.
看来吸水率是木塑复合材料中微生物生长的一个关键参数。
It seems that water absorption serves as one of the key parameters in microbial growth in WPC materials.
生物素结合位点的复杂性和结构的不规则性使得它最适合与生物素结合并且表现出与链霉素亲和素-生物素复合体的高度特异性(4)。
The complex and irregular structure of the biotin-binding site makes it highly optimized for biotin binding and confers great specificity to the streptavidin-biotin complexes (4).
基于蛋白复合物制备而得的生物技术制剂具有难于仿制的特点,因此世界制药巨头们开始对生物制剂展示极大兴趣。
The world's pharmaceutical giants are aflutter over "biologics" - protein compounds used to make drugs that are difficult to copy into generic versions.
运用应变电测技术测定e H复合材料人工颅骨的各项生物力学指标。
Indexes of biomechanics of the artificial cranium of EH composite material are measured by strain electrical technique.
通过使用更复杂的复合微生物,面包师能生产特色的面包,如酸面团面包。
By using more complex assemblages of microorganisms, bakers can produce special breads such as sour doughs.
对活性污泥—膜生物反应器、生物膜—膜生物反应器、复合式膜生物反应器的除污效果和膜污染趋势进行了研究。
Pollutants removal efficiency and membrane fouling in activated sludge-membrane bioreactor (MBR), biofilm-MBR, and composite MBR were studied.
目的研究复合珊瑚羟基磷灰石(CCHA)与成骨细胞的生物相容性。
Objective To study the biocompatibility of the coralline hydroxyapatite combined with bone morphogenetic protein(CCHA).
增殖细胞核抗原(pcna)是真核生物复制复合体的核心成分,为DNA合成所必需。
Proliferating cell nuclear antigen (PCNA) is the kernel component of replication complex of eukaryotic organism, and needed for DNA synthesis.
目的研究雪旺细胞和生物降解支架材料复合后构建成的组织工程化人工神经修复神经缺损的效果。
Objective To study the outcome of repair of nerve defects with tissue engineering artificial nerve, which was composed of compound of Schwann cells and biodegradable materials.
本文评述了国内外金属基生物活性复合涂层的制备方法与特点,以及其广阔的发展前景。
In this paper, preparing methods and their features of bioactive composite coatings on metal substrate were reviewed, and extensive development prospects were expected.
水稻茎秆是典型的生物复合材料,有着优良的力学性能,起到支撑和抗倒伏的作用。
Rice stem is a perfect kind of composite material with excellent mechanical property such as supporting and lodging resistance.
利用突变的微生物、加工酶及新颖的酶的复合,可以提高产量,也可以探索出新式合成方法。
Increased production or novel product synthesis can be achieved through the use of mutant organisms, tailored enzymes or novel combinations of enzymes in reactors.
胞外酶活性在海洋环境中起着非常重要的作用,是微生物降解和利用有机复合物的关键。
Extracellular enzyme activity plays an important role in the Marine environments, it is the key step in degradation and utilization of organic polymers by microorganism.
目的研制新的复合性生物性颅骨替代材料。
Objective a new compound biological material substituting for skull was developed.
电子显微学是结构生物学的重要分支,已经成为一种公认的研究生物大分子、超分子复合体及亚细胞结构的有力手段。
Electron microscopy is an important tool in structural biology and can be used to elucidating the structures of macromolecular complexes and assemblies, subcellular organelles and cells.
胶原及其复合材料作为生物材料有广泛的用途。
Therefore, collagen and its composites have been utilized widely for a long time as biomaterials.
本实验的目的是进一步检验软磁铁氧体—生物活性陶瓷复合材料的生物相容性。
The purpose of the study is to test the biocompatibility of the soft-magnetic ferrite coated with bioactive ceramics.
本实验的目的是进一步检验软磁铁氧体—生物活性陶瓷复合材料的生物相容性。
The purpose of the study is to test the biocompatibility of the soft-magnetic ferrite coated with bioactive ceramics.
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