溶性顯示劑 的英文怎麼說

中文拼音 [róngxìngxiǎnshì]
溶性顯示劑 英文
soluble developer
  • : 動詞(溶化; 溶解) dissolve
  • : Ⅰ名詞1 (性格) nature; character; disposition 2 (性能; 性質) property; quality 3 (性別) sex ...
  • : Ⅰ形容詞1 (明顯) apparent; obvious; noticeable; evident 2 (有名聲有權勢的) illustrious and inf...
  • : Ⅰ動詞(擺出或指出使人知道; 表明) show; indicate; signify; instruct; notify Ⅱ名詞1 [書面語] (給...
  • : Ⅰ名詞1 (藥劑; 制劑) a pharmaceutical or other chemical preparation 2 (某些有化學作用的物品) a...
  • 顯示 : 1 (明顯地表示) show; display; demonstrate; exhibit; evince; manifest; discover; reveal; vision ...
  1. Butyl acrylate was selected as the tender monomer in prepared bpua, and when the viscosity of middle multipolymer is 800 - 1000mpa. s, the last prepolymer had good capability. in the applied research, some influencing factors such as diluent, photoinitiator and photoinitiators that match to different pigments on the coating film were studied

    根據研究的結果,進行大量的配方實驗,研製了適合於皮革使用的uv上光油,經能測試:光澤度110 、耐折3萬次、耐200次、附著力合格,達到皮革上光油的使用要求。
  2. It is also used as adhesion agent to replace starch. pva is widely used in textile, paper making, building materials, packing, glass, and medicine. good character of service has been displaying when it is used as textile warp size, fabric finishing agent, reagent and additive in polymerization for industry of fine chemicals, adhesion agent for construction coating, and packing material film

    聚乙烯醇是一種水高分子聚合物,它具有化學能穩定能良好粘著力大等優點,可用作聚合反應的乳化和分散,同時可取代澱粉等作為膠粘,廣泛應用於紡織造紙建築材料包裝玻璃醫藥等行業,在作為紡織用經紗漿料織物整理精細化工用聚合物助建築塗料用粘合以及製成薄膜後作為包裝材料等方面,日益出其良好的使用能。
  3. It is also used as adhesion agent to replace starch. pva is widely used in textile, paper making, building materials, packing, glass, and medicine. sound character of service has been displaying when it is used as textile warp size, fabric finishing agent, reagent and additive in polymerization for industry of fine chemicals, adhesion agent for construction coating, and packing material film

    聚乙烯醇pva是一種水高分子聚合物,它具有化學能穩定能良好粘著力大等優點,可用作聚合反應的乳化和分散,同時可取代澱粉等作為膠粘,廣泛應用於紡織造紙建築材料包裝玻璃醫藥等行業,在作為紡織用經紗漿料織物整理精細化工用聚合物助建築塗料用粘合以及製成薄膜後作為包裝材料等方面,日益出其良好的使用能。
  4. The relation of absorption of nano - metal sols and the addition of dispersants, as well as the rule of absorption of nano - metal sol added by dispersants concomitant to placing time were systematically investigated by means of uv - vis. the results show that, the suitable dispersant to nano - iron / ethanol sol is 0. 035 % polyoxyethylene ( 10 ) lauryl ether ( op - 10 ), but in the case of nano - tungsten / ethanol sol, 0. 13 % neotelex maybe is of more benefit to its disperse stability. the observation of tem shows the best evidences

    Uv - vis法理論分析結果表明,對于納米鐵膠,添加0 . 035的非離子型表面活十二烷醇聚氧乙烯醚可以達到良好的分散穩定;而對于納米鎢膠,最理想的分散則是0 . 13的陰離子表面活十二烷基苯磺酸鈉,電鏡觀察結果完全證實了該推論,5天後的納米金屬膠仍然保持良好的分散狀況。
  5. Under that condition the strain can produce the most concentration of the bioactive compounds. the physical and chemical properties of the actibacterial compounds have been studied, the results showed the bioactive substance has heat stable, acidity and weakly alkali stable. it can be dissolved in acid water, chloroform solvent, can not be dissolved in ethyl acetate, petroleum ether, alkali water. the result of thinlayer chromatography showed the bioactive compounds can give off blue and green fluorescence in the uv light. the paper chromatography demonstrate the bioactive substance may be a new construct compounds

    研究表明,該活物質具有較強的熱穩定, ph 9的條件下能穩定存在,但ph 12的強堿條件下活物質的抗菌活幾近喪失;活物質易於氯仿、酸水、不於乙酸乙酯、石油醚、堿水;薄層層析物質在紫外光下能發藍綠色熒光等特點;由捷克八系統紙層析鑒定該抗菌活物質不屬於四大類抗生素,可能為一新的抗菌活物質。
  6. Through experiment and analyzing the changes of the thickness, rigidity, tensile strength and the opening rate of the conduits caused by the different kinds of coating material, the thickness of the coating and the different braiding structures, we investigate the physical and mechanical, properties of the braided conduits. the results show : the chitosan is easy to form the film structure on the surface of the conduits increasing the conduits ' rigidity clearly ; the rigidity and opening rate of the braided structure with inserted reinforcing yarn are better than the others, this will prevent the conduits collapsing and distorting effectively in the practical uses, so we select conduits of this structure for animal experiment

    在導管的物理機械能研究方面,本課題通過塗層的種類( pgla丙酮液和甲殼胺漿液) 、塗層的厚度、導管的編織結構三個方面分析它們對導管的厚度、硬挺度、拉伸強力和孔隙率等能的影響。測試結果:甲殼胺塗層易於在導管表面成膜,對導管的硬挺度有明提高,塗層效果較好;加筋結構神經導管在硬挺度和孔隙率方面優于其它導管,能有效防止導管在實際應用中的塌陷變形。
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