共查询到19条相似文献,搜索用时 78 毫秒
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结构化乳液的理论、制备与应用Ⅲ.结构化纳米乳液 总被引:1,自引:0,他引:1
对乳液的结构化研究近来的进展进行了综述,涉及到普通乳液、微乳液和纳米乳液的结构、制备、性能及应用。其中,对连续相结构化乳液的叙述包含了溶致型液晶作为乳液连续相、热致型液晶作为乳液连续相以及凝胶连续相乳液三个方面,而在对其应用方面的介绍中,提及了嵌段共聚物作为连续相的实例和制备单分散乳液的一些技术。本文对微乳液和纳米乳液的介绍则主要分为结构、特征、形成机理、制备方法、应用、聚合工艺及机理等方面。 相似文献
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结构化乳液的理论、制备与应用Ⅱ.结构化微乳液 总被引:1,自引:0,他引:1
对乳液的结构化研究近来的进展进行了综述,涉及到普通乳液、微乳液和纳米乳液的结构、制备、性能及应用.其中,对连续相结构化乳液的叙述包含了溶致型液晶作为乳液连续相、热致型液晶作为乳液连续相以及凝胶连续相乳液三个方面,而在对其应用方面的介绍中,提及了嵌段共聚物作为连续相的实例和制备单分散乳液的一些技术.本文对微乳液和纳米乳液的介绍则主要分为结构、特征、形成机理、制备方法、应用、聚合工艺及机理等方面. 相似文献
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对乳液的结构化研究近来的进展进行了综述,涉及到普通乳液、微乳液和纳米乳液的结构、制备、性能及应用.其中,对连续相结构化乳液的叙述包含了溶致型液晶作为乳液连续相、热致型液晶作为乳液连续相以及凝胶连续相乳液三个方面,而在对其应用方面的介绍中,提及了嵌段共聚物作为连续相的实例和制备单分散乳液的一些技术.本文对微乳液和纳米乳液的介绍则主要分为结构、特征、形成机理、制备方法、应用、聚合工艺及机理等方面. 相似文献
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纳米微粒的微乳液制备法 总被引:72,自引:0,他引:72
W/O微乳液制备纳米微粒是一新兴的研究领域。本文系统地介绍了乳浮液制备法的基本原理、微乳液“水池”中纳米微粒的鉴定方法、目前该领域的研究进展,并提出了适用于制备纳米微粒的微乳液体系的选择标准及该领域研究工作的展望。 相似文献
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In this research, the effects of zinc stearate addition on paraffin wax degradation were investigated by differential scanning
calorimetry (DSC) and thermogravimetry (TG). The apparent activation energies of wax decomposition in nitrogen and air atmospheres
were determined as 76 and 37 kJ mol−1, respectively applying Kissinger method to TG data. The degradation rate constants of paraffin containing zinc stearate (0.1–0.5%)
were found to be almost two times greater than that of paraffin only in air atmosphere. However, zinc stearate did not affect
the rate constants in nitrogen significantly. 相似文献
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纳米氧化铁制备中的团聚问题 总被引:3,自引:0,他引:3
纳米材料是近年来的研究热点。通常的纳米Fe2O3粒子制备过程中处理温度高,粒子易团聚,难于分离[1~4]。本文用溶胶 凝胶 相转移法制得粒径为20-50nm的Fe2O3,胶溶过程控制pH在2左右,煅烧温度降至420℃,用无水氯化钙、无水硫酸钠两级脱水干燥,减小了团聚,使其更具实用性。1 实验取23 8gFeCl3·6H2O溶于500ml蒸馏水,取200ml此三氯化铁溶液,搅拌下逐滴加入10ml氨水与40ml蒸馏水的混合液中直至其显弱碱性。将沉淀过滤,洗涤,在滤液中加硝酸银溶液至无白色沉淀。胶溶剂为0 7~1 5mol/LFeCl3溶液,用量40ml,胶溶温度70℃左右,pH值控制在2… 相似文献
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Phase change materials, based on low-density polyethylene blended with soft and hard paraffin waxes respectively, were studied in this paper. DSC, DMA, TGA and SEM were employed to determine the structure and properties of the blends. The blends were able to absorb large amounts of heat energy due to melting of paraffin wax, whereas the LDPE matrix kept the material in a compact shape on macroscopic level. The hard paraffin wax was, however, much more miscible with LDPE because of co-crystallization than the soft paraffin wax. LDPE blended with hard paraffin wax degrades in just one step, while blends containing soft paraffin wax degrade in two distinguishable steps. SEM showed completely different morphology for the two paraffin waxes and confirmed the lower miscibility of LDPE and soft paraffin wax. DMA analyses demonstrated the toughening effect of the waxes on the polymer matrix. This technique was also used to follow the thermal expansion as well as the dimensional stability of the samples during thermal cycling. The most visible expansion could be seen in the first cycle, probably due to a totally different thermal history of the sample. With further cycling the dimensions stabilized after two and four cycles for soft and hard paraffin wax, respectively. Controlled force ramp testing on DMA confirmed poor material strength of the blends containing soft wax, especially at temperatures above wax melting. 相似文献
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Natural aging of shape-stabilized phase change materials containing linear low density polyethylene (LLDPE), paraffin wax and expanded graphite (EG) in Qatari climate has been studied. It was found that expanded graphite significantly improved the performance of prepared SSPCMs in multiple ways. Firstly, EG suppressed leakage of paraffin wax from the compact shape of SSPCMs. The addition of 15 wt% of EG to shape stabilized phase change materials (SSPCMs) containing 50 wt% of wax caused a decreasing in the leakage of wax by 50% over 210 days of natural aging.Secondly, ∖expanded graphite enhanced the photochemical stability of the blends; this was confirmed by FTIR analysis, where carbonyl index decreased with EG content. 相似文献
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