以十二烷基胺和十二酸为分散剂,通过胶溶技术制备了两种水性铁磁流体。
Two water-based ferrofluids were prepared with peptization technique using dodecylamine and dodecanoic acid as dispersing agent.
摘要研究了界面聚合法制备微胶囊阻燃剂时,分散剂用量、搅拌速度等因素对微胶囊粒径大小及分布的影响规律。
During making microcapsule by interfacial polymerization process the effects of the agitation speed dispersant dosage on the size and distribution of microcapsule particle diameter were investigated.
此外,在催化剂制备中添加的分散剂以及催化剂的制备方法也对单壁碳管的产量影响很大。
Moreover, the additives that introduced during the catalyst preparation also have great effects on the yield and quality of the SWNTs.
介绍一种强耐水贴标胶的制备方法,考察了助分散剂、交联剂、淀粉以及碱等原料对酪素胶性能的影响。
In this paper, the preparation technique and properties of high speed casein labeling adhesive with super water resistant were introduced.
选用聚乙二醇20000和十二烷基硫酸钠两种分散剂,通过球磨分散法制备镁锌铁氧体浆料。
The effects of polyethene glycol 20000 and sodium dodecyl sulfate on the dispersion of magnesium zinc ferrite slurry prepared by ball milling dispersion were studied.
结论本散剂制备工艺简单,质量稳定,符合临床需要。
CONCLUSION The Jianpizhixie powder is simple in preparation technology, stable in quality and suitable for clinical requirement.
研究了制备过程中的分散剂用量、成型温度的控制问题,并在理论上对这两个关键操作步骤进行简要的分析。
The dispersant dosage and temperature control were discussed in detail by investigating the preparation process, and the two key operations were analyzed briefly in theory.
研究了炭黑母粒配方组成中分散剂、特制加工助剂以及炭黑母粒制备工艺等对炭黑最终分散性的影响。
The effect of dispersing agent, special processing agent in black masterbatch and processing technology of black masterbatch on the dispersion of carbon black was studied.
研究了高分子分散剂及低温处理在制备无团聚超细氧化锆粉末中的作用。
The effects of macromolecular dispersant and subzero treatment on the preparation of ultrafine non agglomerative zirconia powders have been studied.
选用两种不同类型的分散剂,考察了11种不同变质程度煤在高浓度煤浆制备过程中的浆体抗搅拌性能。
The stir-resisting properties of coal water slurries during their preparations were investigated in detail with 11 Chinese coals and two types of dispersants.
对于阳离子分散松香胶的制备而言,聚合物类物质在特定的条件下可用作有效的乳化与分散剂。
Certain polymeric substances can be effectively used as efficient emulsifying and dispersing agents for the preparation of cationic dispersed rosin sizes.
采用自由基聚合制备了新型含氟水性高分子分散剂,讨论了其合成工艺和性能。
The new environmentally friendly fluoro-contained polymer dispersing agent is synthesized by the radical polymerization. The synthesis process and performances thereof are discussed.
采用化学共沉淀法,通过加入分散剂,制备了团聚程度低、结晶度完好、具有较好磁性能、不同组成的锰锌铁氧体粉末晶体。
The homogeneous low-agglomerated and well crystallined MnZn ferrite powder with good magnetic properties were prepared by coprecipitation method and adding dispersant.
以水乙醇混合溶剂作分散剂,采用半干法合成工艺,制备了高取代度阳离子淀粉。
The cation starch with high substitute degree was prepared based on the half dry technology, and the dispersing agent was the mixture of water and alcohol.
本发明还公开了这种中药散剂的制备方法。
Said invention also disclosed the prepn. method of said medicinal powder.
综述了此类分散剂制备方法和工艺条件。
The synthesis methods and synthesis technics of this kind of dispersant agent are reviewed.
综述了新型高分子陶瓷分散剂的结构特征及其制备方法,探讨了高分子陶瓷分散剂的作用机理。
The preparation and structural properties of the novel ceramic dispersants are summarized, as well as their acting mechanism.
结论本散剂制备工艺简单,质量稳定,符合临床需要。
CONCLUSION The Jianpizhixie powder is simple in preparation technology, stable in quality and suitable for clinical...
本发明涉及一种聚酯型两亲性超分散剂及其制备方法,以满足固体颗粒在不同极性介质中分散的需要。
The invention relates to a polyester amphipathic hyper-dispersant and a preparation method thereof to satisfy the demand of dispersion of solid particles in different polar media.
本发明涉及一种丙烯酸丙烯酰胺共聚物阻垢分散剂及其制备方法。
This invention relates to acrylic acid acrylamide copolymer as scale dispersant and its preparation.
用石油醚作为分散剂,干法制备低取代度阳离子淀粉,反应效率更高,产品更均一。
The low degree of substitution cationic starch was synthesized in dry process by using petroleum ether as dispersant. The reaction efficiency was more effective and the product was more homogeneous.
水煤浆分散剂是水煤浆制备技术的核心,它是高浓度水煤浆流动、稳定的基础。
The dispersant is the key technology for the development of CWS, which is important to the stability and high concentration of CWS.
采用化学还原法,以抗坏血酸为还原剂,明胶为分散剂制备了球形超细银粉。
Using ascorbic acid as reducing agent and gelatin as dispersant, the spherical ultra-fine silver powder was synthesized by the chemical reduction method.
以酞菁绿G、汉沙黄10G为原料,以超分散剂为改性剂,通过球磨制备电泳粒子。
The electrophoretic particles of phthalocyanine Green G and Hansa yellow 10G which were modified with hyperdispersants were prepared by ball milling.
以高炉瓦斯泥为原料,经气相还原气氛煅烧及液相提纯步骤制取铁盐溶液,再采用液相还原法,在有分散剂及包覆剂存在的条件下制备出纳米铁颗粒。
The height change of foam caused by reduction gas during foaming process was measured under different conditions of treating blast furnace dust in iron bath.
以高炉瓦斯泥为原料,经气相还原气氛煅烧及液相提纯步骤制取铁盐溶液,再采用液相还原法,在有分散剂及包覆剂存在的条件下制备出纳米铁颗粒。
The height change of foam caused by reduction gas during foaming process was measured under different conditions of treating blast furnace dust in iron bath.
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