原纤维可能已经完成了层状晶体。
电镜可见胞浆内含肌丝及胶原原纤维。
Electron microscope showed there were myofilament and collagenous fibril in the cell plasm.
介绍了竹原纤维的特点。
文章描述了竹原纤维的组成结构与性能特点。
The composition and property of raw bamboo fiber are described.
CAA往往同时伴有老年斑和神经原纤维缠结。
The CAA was often accompanied with the senile plaques and neurofibrillary tangles.
竹原纤维混纺纱在临界混纺比处强度均出现低谷。
Strength of bamboo raw fiber blending yarn appear low valley at critical blending ratio.
初步探讨了猪皮胶原在原纤维水平上的精细结构。
The fine structure of natural pig collagen was also discussed in detail.
斑块状扭结的数量与胶原原纤维的退变程度成正比。
The number of twisting collagenous fibrils closely correlated with the degree of fibrous degeneration.
竹原纤维是通过物理方法生产的一种绿色环保型纤维。
Raw bamboo fiber is a green and environmental protection fiber, it is made through physical method.
发现布及其纱的动态力学-温度谱与原纤维的截然不同。
It was found that the dynamic mechanics-temperature spectra of fabric and its yarns were completely different from that of original fibers.
竹原纤维难以进一步细化,这是将其纺成纱的主要障碍。
The main obstacle for spinning bamboo fibre is to refine it thinner.
运用混纺纱强伸性模型,分析了竹原纤维混纺纱的强伸性能。
Strength and elongation performance of bamboo raw fiber blending yarn is analyzed by using blending yarn strength modal.
杨庆斌等研究了热处理对竹原纤维和竹浆纤维力学性能的影响。
Yang Qingbin other of heat treatment on the natural bamboo fiber and bamboo fiber mechanical properties.
采用最新标准对竹原纤维织物及毛竹竹粉的抑菌率进行了测定。
Bacteriostatic rates of the natural bamboo fabric and bamboo powder were tested based on the latest standard.
竹原纤维是利用机械物理法直接从竹子中提取出的一种天然纤维。
Bamboo fiber is a new kind of natural fiber extracted from bamboo by mechanical and physical methods.
本文介绍了竹原纤维的特点、开发的意义,并对其应用前景进行了分析。
This paper introduces the properties of raw bamboo fiber, the meaning of developing it and also analyzes the application prospects of it.
电镜,淀粉样物质是由原纤维的β-折叠组成。可见不规则的灰色物质。
By electron microscopy, amyloid is composed of a "beta-pleated sheet" of fibrils, seen here as irregular grey material.
对氨基水杨酸钠;锰中毒;学习记忆;海马;胶质原纤维酸性蛋白;
Sodium p-amino-salicylic acid; Manganism; Learning and memory; Hippocampal; Glial fibrillary acidic protein;
竹浆纤维除断裂伸长外。其各项拉伸断裂力学性能指标均远远低于竹原纤维。
In addition to bamboo fiber elongation, but its tensile mechanical properties were far below the bamboo fiber.
应用免疫组织化学abc法观察大鼠脑内视觉系统胶质原纤维酸性蛋白的变化。
Immunohistochemical ABC method was employed to investigate the immunoreactive changes of astrocytic bodies and processes for glial fibrillary acidic protein (GFAP) in the central visual brain regions.
电镜可见胞浆有张力原纤维,角蛋白免疫组织化学阳性证实鳞状上皮有分化特征。
The tonofilament expression in cell cytoplasm by electron-microscopy and positive reaction of cytokeratin by immunochemistry showed differentiative character of squamous epithelium.
本文报道了将阳离子改性剂用于竹原纤维织物并采用天然苏木染料染色的实验研究。
This paper describes the experiments of using cationic modifying agent on bamboo fiber fabric and dying withsappan dyestuff.
文章介绍了竹原纤维的特性,阐述了竹原纤维在纺纱织造生产中应注意的一些问题。
The characteristics of bamboo fiber are introduced. Some points to pay attention in spinning and weaving process are expounded.
以竹原纤维、聚乳酸为原料,采用非织造结合模压成型工艺制备了完全可降解材料。
Raw bamboo fibers reinforced polylactide biodegradable material was prepared by means of non-woven method and moulding pressing technology.
结果表明。竹原纤维具有较高初始模量。湿态时纤维力学性能较之干态有明显下降。
The results showed that bamboo fiber has a high initial modulus, fiber mechanical properties when wet than the dry state decreased significantly.
老化牙本质胶原原纤维的横纹模糊不清,数量增加,口径增粗,分布致密,走向随意;
The collagen fibrils in the dentine of aging rat enlarged in its diameter, and were denser in the pattern of their distribution and ran randomly in their direction.
轴突内可见丝状的神经原纤维及线粒体,轴突外包有髓鞘,为明暗相间的同心圆板层结构。
Filamentous neurofibrils and mitochondria were observed in axons. Axons were enveloped by myelin sheath, presented alternately dark and bright lamellae concentric configuration.
文章主要研究了竹原纤维的基本形态特征;同时对竹原纤维的力学性能特点作了详细分析。
The basic morphological structure of the natural bamboo fiber is studied, and the mechanical properties of the fiber is also analyzed in details, in this paper.
竹原纤维与麻类纤维的结构及性能相似。其显微形态与麻类纤维有许多相似之处。不易区分。
Bamboo fiber and hemp fiber structure and properties similar to the microstructure morphology and hemp fibers have many similarities, not easy to distinguish.
竹原纤维与麻类纤维的结构及性能相似。其显微形态与麻类纤维有许多相似之处。不易区分。
Bamboo fiber and hemp fiber structure and properties similar to the microstructure morphology and hemp fibers have many similarities, not easy to distinguish.
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