亚麻布是以亚麻纤维为原料制造的。
介绍了亚麻纤维的特性。
工人们在梳理亚麻纤维。
ES纤维与亚麻纤维的粘合属于非极性粘合。
The bond between the flax fibers and the ES fibers belongs to non-polarity.
研究了接枝亚麻纤维纺纱工艺参数的设计与实践。
Research the parameters for spinning graft flax fiber in design and practice.
射线衍射谱图显示接枝后亚麻纤维的结晶度下降。
X-ray diffraction spectrums show that the crystal degree of grafted flax has turned smaller than general flax.
研究了阳离子助剂在亚麻纤维用活性染料染色中的作用。
The effects of cationic aux. on flax yarn dyeing with reactive dyes were studied.
本方法是一种对亚麻纤维进行化学成分定量分析的好方法。
The method is good for quantitative analysis of flax fiber chemical composition.
改性亚麻纤维细软、蓬松,可以满足高支混纺纱的纺纱要求。
Modified flax fiber is fine, soft and bulgy, meeting the demand to spin fine-count blended yarn.
摘要改性亚麻纤维细软、蓬松,可以满足高支混纺纱的纺纱要求。
Modified flax fiber is fine, soft and bulgy, meeting the demand to spin fine-count blended yarn.
亚麻是一种重要的韧皮纤维作物,木质素对亚麻纤维的性能和品质具有较大影响。
Flax is an important bast fiber crop, and lignin has a greater impact on performance and quality of flax fibers.
通过高温条件下尿素对亚麻纤维进行改性,提高了其轧染时的染色性能和染色深度。
The modification to flax fabric with urea at high temperature was carried out inorder to improve the dyeability of flax fabric for padding.
从科学角度,已知大蒜系葱属漂白亚麻纤维卷,以其具有抗病毒和细菌的能力自古传闻。
Scientifically known as Allium sativa, garlic has been famous throughout history for its ability to fight off viruses and bacteria.
提出了一种新的木质素定量分析方法,即用浊度法快速测定亚麻纤维中所含微量木质素。
A new method of rapidly quantitatively analyze trace lignin in flax fiber by turbidimetry was proposed in this paper.
从亚麻纤维结构分析了亚麻染色上染率低。光泽暗淡的原因,从而采用了涂料染色。
The causes of low dye-pickups and faint shades in dyeing of flax were studied on the basis of the fiber structure; pigment dyeing was then used.
木质素是亚麻脱胶时难以去除的成分,它的存在对亚麻纤维品质和纺织性能有较大影响。
Lignin is difficult to be removed during retting process. Lignin has a greater impact on the fiber quality and performance of the textiles.
采用X射线衍射法研究温水浸渍法脱胶和酶法脱胶过程中亚麻纤维结晶度、取向度的变化情况。
X-ray diffraction techniques were used to measure the degree of crystallinity and the orientation of flax fiber during retting.
以纤维素酶对亚麻纤维酶整理工艺进行研究,探讨酶的处理温度以及时间对酶整理效果的影响。
This article tested the process of enzyme treatment on linen fiber with cellulase and studied the influences of enzyme, temperature and time.
通过红外光谱计算的结晶度指数表明竹原纤维的结晶度仅次于苎麻纤维。高于亚麻纤维和棉纤维。
Calculated by IR crystallinity index showed that the crystallinity of bamboo fiber after the fiber, higher than the flax fiber and cotton fiber.
石红等研究指出。常规方法中纤维投影法。密度法。溶解法等方法不适合定性鉴别竹原纤维和亚麻纤维。
Of red stone that conventional methods of fiber projection method, the density method, solution method and other methods are not suitable for qualitative identification of bamboo fiber and flax fiber.
X射线衍射和核磁共振两种分析结果均显示。竹原纤维的结晶度与苎麻纤维相近。大于棉纤维和亚麻纤维。
Two X-ray diffraction and nuclear magnetic resonance analysis have shown that the crystallinity of bamboo fiber and ramie fiber similar to cotton and flax fiber is greater than.
有创意的本土植物苗圃开始种植生长在黄麻和亚麻纤维垫上的湿地植物,这些垫子可展开并用桩插植入基地。
Creative native-plant nurseries are starting to produce wetland plants varieties grown on jute and hemp MATS that can be unrolled and staked in place.
针对亚麻纤维染整加工存在的缺点,探讨亚麻粗纱的煮、漂、染连续工艺,得出最佳加工工艺并用于中试生产。
Due to the disadvantages existing in linen treatment, continuous process of scouring and bleaching and dyeing for linen rove is discussed.
研究表明:亚麻纤维经某些阳离子助剂预处理改性后用活性染料染色,对于提高上染率、牢度和柔软度具有显著的作用。
The results showed that the premodification of flax yarns with some cationic aux. increased markedly the dye-pickup, fastness and softness.
高碘酸钠选择性氧化后亚麻纤维大分子上生成了活性醛基,随着氧化程度的加深,纤维表面变得粗糙,结晶度不断降低。
The surface of flax fiber became rough and crystallinity decreased while increasing oxidized degree of flax fiber. The structure and properties of the proteinic oxidized flax fiber were studied.
通过比较膨化剂浓度、改性温度和时间的改变对提高亚麻纤维染色性能的影响,优化出提高亚麻纤维染色性能的最佳改性工艺。
The influences of swelling agent solution concentration, treating temperature and time on the modification to flax fabric were studied to find the optimum modification conditions.
通过对亚麻纤维的化学组成和微观结构的分析,研究了亚麻纤维弹性不好、易折皱的原因,提出了几种提高亚麻纤维弹性的方法。
We analyze the reasons of low in elasticity and easy to wrinkle for flax fibers, with respect to their chemical composition and microstructure. Ways to improve flax fibers' elasticity are discussed.
亚麻纤维是一种性能优异的天然纤维素纤维,特有的纤维性能使其产品具有良好的服用性能和外观风格,颇受国内外市场和消费者的青睐。
Flax is a kind of natural cellulose fiber with excellent properties, which make its products good wearing characteristics and style. So it meets requirements of the markets in the global textile.
通过束纤维强力仪、纤维切断器等仪器和手排长度法研究了碱处理时间对亚麻落麻纤维性能的影响。
The influence of alkali treatment time on properties of flax noil fibers was studied through bundle strength tester, fiber cutting machine and manual length method.
通过束纤维强力仪、纤维切断器等仪器和手排长度法研究了碱处理时间对亚麻落麻纤维性能的影响。
The influence of alkali treatment time on properties of flax noil fibers was studied through bundle strength tester, fiber cutting machine and manual length method.
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