自然界的生物材料几乎都是复合材料,因此都可被称为自然生物复合材料。
Generally, biological materials in nature are composites, so biological materials can be called as natural biocomposites.
它们开始消化这些废料然后在接下来的五天里面,将它们组织成生物复合材料。
It'll actually begin to digest these wastes and, over the next five days, assemble them into biocomposites.
本论文围绕这一重要课题,采用粉末冶金法制备了HA/316L生物复合材料;
Surrounding this important task, HA/316L biocomposites were fabricated with powder metallurgy in this paper.
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.
金龟子外甲壳是一种典型的自然生物复合材料,具有优化的微结构和优良的力学性质。
Chafer cuticle is a kind of representative natural biocomposite which possess excellent microstructures and mechanical properties.
摘要:背景:纳米生物复合材料的性质、形成机制和蛋白质构象变化与其生物学效应密切相关。
BACKGROUND: the properties, integration mechanism and conformation change of protein are closely related with the biological effects of nanocomposites.
自然生物复合材料具有优良的力学性质,而这些优良力学性质是密切相关于经过亿万年选择进化形成的天然合理的微结构。
These natural composites are of excellent mechanical properties which are closely related to their microstructures optimized by nature over many centuries.
角蛋白是蛋白质的一种,广泛存在于人和动物的表皮、毛发以及动物的蹄、壳、爪、角中,是一类性能优良的天然生物复合材料。
Keratin, a kind of protein, exists widely in human and animal organs, including epidermis, hairs, wool, feather, hoof and horn. It is a natural compound material with good properties.
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.
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.
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.
生物软组织(例如关节软骨)是由带电固体网络、孔隙液体和带电离子组成的多相复合材料。
Biological soft tissue such as articular cartilage is a composite material consisting of charged solid matrix, interval fluid and charged ions.
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.
所得的复合材料有望成为负重骨缺损的有生物活性的修复材料。
The resultant composite is potential to be applied as bioactive bone repairing material in load bearing site.
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.
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.
应用纳米羟基磷灰石(nHA)、聚酰胺66(PA66)和高密度聚乙烯(HDPE)制备了生物医用复合材料。
Nano-hydroxyapatite slurry (n-HA) was used to make composite with medical grade polyamide 66 (PA66) and high-density polyethylene (HDPE).
通过溶液共混法制备了羟基磷灰石纳米针晶与聚己二酰己二胺生物医用复合材料。
Bionic acicular nano hydroxyapatite(n HA) was used to make composites with medical grade polyamide (Poly hexamethylene adipamide) by solution blend.
木材生物矿化往往能形成有序排列的、结构非常优异的天然有机—无机复合材料。
The wood by biomineralization often leads to the formation of the excellent structure natural organic-inorganic composite.
因此,制备此类强磁性,高sers活性磁性复合材料则可以大大拓展其在化学,生物中的应用。
Therefore, fabrication of magnetic composites with optimal saturation magnetization and high SERS activities enable us to extend its application in chemical and biological fields.
扫描电镜观察显示胫骨是一种由羟基磷灰石和胶原蛋白组成的自然生物陶瓷复合材料。
The observation of Scanning Electronic Microscope (SEM) on a shankbone shows that the bone is a kind of natural bioceramic composite consisting of hydroxyapatite and collagen protein.
简要介绍了三类木纤维素增强复合材料的性质,指出最终的目标是制备符合环保要求完全生物降解的复合材料。
Properties of the three types of composites arebriefly described with the final goal of obtaining the fully biodegradable composites to fit new environmental requirements.
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.
本发明公开一种具有生物活性的钛基梯度复合材料及其制备方法与应用。
The invention discloses a titanium matrix gradient composite material with biological activity and the process for preparation thereof and the application thereof.
可生物降解聚合物中的层状硅酸盐纳米复合材料,可极大提高其力学性能,但同时会影响到材料的降解速率。
Layered silicate nanocomposites of biodegradable polymers can greatly increase mechanical properties of the polymers, which have influence on the degradable rates of the polymers.
结果表明:纳米氧化钛陶瓷复合材料的生物活性、力学性能、蛋白吸附能力随。
The mechanical analysis showed the biomechanical compatibility was also improved by adding BGC into nanophase titania ceramic.
介绍了目前生物活性陶瓷和聚合物生物材料的常用复合技术,以及所得复合材料的力学和生物学性能及其临床应用情况。
Some techniques of compounding bioactive ceramics and polymer biomaterials with mechanical and biological properties and the clinical applications of the composites produced are presented.
研究结果表明:复合材料具有较好的力学性能和生物相容性。
The study showed the bioceramic composite had good mechanical properties and biocompatibility.
综述了近年来聚乳酸类生物可降解高分子复合材料的研究进展。
With advances in material science and biomedicine. more and more importance has been attached to biodegradable polylactic acids (PLAs) composite.
综述了近年来聚乳酸类生物可降解高分子复合材料的研究进展。
With advances in material science and biomedicine. more and more importance has been attached to biodegradable polylactic acids (PLAs) composite.
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