超纤维毛巾是由两种人造纤维合成的-聚脂和聚酰胺。
Microfiber is a unique blend of two tiny synthetic fibers - polyester and polyamide.
仅仅四年之后,全球首个超纯纤维就于1970年问世。
The first ultrapure fiber was made just four years later, in 1970.
所以很多特技人员的衣服中都含有超吸水聚合纤维—一种可以使水分不易挥发的材料。
So stuntpeople use clothes containing super-absorbent polymer fibers, which keeps the water in place (it’s pretty much the same material used in diapers).
他们用特殊的超细纤维来替代粗糙的砂石颗粒,以强化水泥。
They used special microfibers, rather than coarse bits of gravel and sand, to strengthen the cement.
科学家们将钛涂覆的碳纤维超微电极与人工培养的皮肤细胞放得非常近。
The investigators placed platinum-coated carbon-fibre ultramicroelectrodes very close to skin cells in culture.
我知道是全涤的,但是是全涤毛巾布还是全涤超细纤维呢?
I also know they are polyester but which polyester tricot or micro fibre?
带有可摘除的超细纤维衬衫的枕头,能提供踏实的睡眠支持。
Pillow with removable microfiber shirt provides firm sleeping support.
超光速(FTL)太阳能公司研发出一款高强度轻巧的纤维,当与纤细的太阳能光板薄膜组合使用时,既可以遮挡阳光,还可以给住宅供电。
Has created a lightweight tensile fabric with integrated thin film solar panels that is capable of shading your deck while powering your home.
找那些由licra,聚乙烯超细纤维或vicose纤维制成的衣服。
Look for clothing made of licra, microfiber of poly or vicose.
附着在合成超细纤维上的内皮细胞,微管、肌动蛋白和胞核已染色(2500倍),荧光和激光共焦显微镜。
Endothelial cell attached to synthetic microfibers, stained with microtubules, F-actin and nuclei (2500x), Fluorescence, confocal.
我们不仅有那些动能手表,还有时尚的可穿用技术制品(如iPod),或光敏纤维(还记得全球性的超色彩T恤吗[Hypercolor T-shirts]?)
Aside from those kinetic watches, there have been fads for wearable technology (such as the iPod) or heat-sensitive fabric (remember Global Hypercolor T-shirts?).
使用清洁,超细纤维毛巾以浅黄色和美丽的光泽和深度揭示你的油漆。
Use a clean, Microfiber towel to buff and reveal beauty shine and depth of your paint.
机身部分用铝合金和白色竹纤维构成,超质感和前卫。
Part white with aluminium alloy and fuselage Bamboo fibre, simple sense and halfback.
虽然重量不影响超细纤维的品质,但是它确实在某些工作上比较适合。
Though weight does not affect the quality of the microfiber, it does make some towels better suited for certain jobs than others.
超细纤维毛巾的厚度直接地与它的重量有关。
The thickness of a microfiber towel is directly related to its weight.
碳纤维在深水和超深锚系装置上显示出潜能。
Carbon fiber shows potential for deepwater, ultra-deep mooring.
在有限的时间,您可以获得:最软的100%超细纤维涂药可用。保证保留形状经过无数次的化学废物的家伙应用系统作任何产品的应用工作变得简单。
FOR a LIMITED TIME YOU GET: The softest 100% Micro fiber applicator available. Guaranteed to retain shape after numerous wastes Chemical Guys Applicators make any product application job EASY.
高相对分子质量聚乙烯的增塑熔纺,由于聚合物浓度较高,大分子缠结多,纤维超拉伸比较困难,难以达到高强度。
Plasticized melt - spun HMWPE fiber is hard to draw to high strength because of high HMWPE content and more molecular tangle in as-spun fibers.
论述了牛皮加工整饰技术在超细纤维合成革生产中的应用研究。
The application research of cattle hide finishing technique in the production of superfine fibre synthetic leather was described.
它有一个擦拭屏幕的超细纤维布。
海岛型锦纶超细纤维PU合成革采用酸性染料染色。
Several important factors affecting the acid dyeing of sea-island composite fiber PU synthetic leather was studied.
可与超细纤维复合使用以逹到滤尘,除臭效果。
It can be used with superfine fiber together to get the effect of filleting dust and deodorization.
采用高级超细纤维并采用高科技磨毛处理,带给您温暖柔软的感觉。
Using high-class micro fiber and develop high technology of peached treatment, feeling warm and soft.
目的:探讨骺板胶原纤维受到牵拉后其胶原纤维超微构筑的变化。
Objective: To investigate changes of micro framework of the collagen fibers when the growth plate was tensed.
静电纺丝技术是目前制备超细纤维和纳米纤维重要的方法之一。
Electrospinning is one of the most important methods to produce nanofibers or ultrafine fibers.
涤纶超细纤维染色时存在匀染性、染深性和牢度三个问题,助剂是解决这些问题的一个重要手段。
Dyeing auxiliaries are the key points to resolve the problems of levelness, deep dyeing and fastness in dyeing micro polyester fiber.
你从未经历过的舒适,直到你有这个在你的脚下超细纤维堵塞。
You've never experienced comfort until you've has this Microfiber clog at your feet.
熔喷技术以能生产超细纤维而倍受关注,引起了科研人员的极大兴趣。
Due to its ability of producing superfine fibers, the melt blowing technology attracts the researchers' much attention.
电纺丝是一种使带电荷的聚合物溶液或熔体在静电场中射流来制备聚合物超细纤维的加工方法。
Electrospinning is a novel processing technique for the production of ultrafine polymer fibers with electrically charged liquid jets of polymer solutions or melts in electrical static fields.
通过论述涤锦复合超细纤维和海岛型超细纤维成纤方法的不同,介绍了两种超细纤维的不同开纤剥离工艺。
The distinct ways of forming PET/PA composite and sea-island ultra-fine fiber are discussed, as well as distinct techniques in peeling process are introduced.
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