功能材料
功能材料
공능재료
JOURNAL OF FUNCTIONAL MATERIALS
2013年
z2期
268-272
,共5页
樊武厚%李正军%但年华%黄金
樊武厚%李正軍%但年華%黃金
번무후%리정군%단년화%황금
溶胶-凝胶法%水性聚氨酯%SiO2%杂化材料%透明度
溶膠-凝膠法%水性聚氨酯%SiO2%雜化材料%透明度
용효-응효법%수성취안지%SiO2%잡화재료%투명도
sol-gel method%waterborne polyurethane%silica%hybrid material%transparency
在阴离子水性聚氨酯分散体(WP U )存在下,采用溶胶-凝胶法,通过前驱体正硅酸乙酯(TEOS)的水解、缩合反应,制备出不同 SiO2含量的 WPU/SiO2(WPUS)杂化材料。通过透射电镜、扫描探针显微镜、动态热机械分析仪、紫外-可见光分光光度计分别研究了不同m(TEOS)/m(WPU)对 WPUS 杂化乳液粒子形貌和杂化膜表面形貌、玻璃化转变温度(Tg )及透明度的影响。结果表明,当m(TEOS)/m(WPU)不超过0.50时,杂化乳液中 SiO2粒子以纳米尺寸均匀分散,WP U软段T g 向高温区移动,随着其增大到2.00,SiO2粒子逐渐增大到200 nm 以上,并有形成无机连续相的趋势,且 WP U 软段T g 又向低温区移动;当m(TEOS)/m(WPU)不超过1.00时,杂化膜表面粗糙度逐渐增大,可见光透光率逐渐减小,而随着其增大到2.00,WPUS 杂化膜表面粗糙度减小,可见光透光率增大,即杂化膜透明度提高。
在陰離子水性聚氨酯分散體(WP U )存在下,採用溶膠-凝膠法,通過前驅體正硅痠乙酯(TEOS)的水解、縮閤反應,製備齣不同 SiO2含量的 WPU/SiO2(WPUS)雜化材料。通過透射電鏡、掃描探針顯微鏡、動態熱機械分析儀、紫外-可見光分光光度計分彆研究瞭不同m(TEOS)/m(WPU)對 WPUS 雜化乳液粒子形貌和雜化膜錶麵形貌、玻璃化轉變溫度(Tg )及透明度的影響。結果錶明,噹m(TEOS)/m(WPU)不超過0.50時,雜化乳液中 SiO2粒子以納米呎吋均勻分散,WP U軟段T g 嚮高溫區移動,隨著其增大到2.00,SiO2粒子逐漸增大到200 nm 以上,併有形成無機連續相的趨勢,且 WP U 軟段T g 又嚮低溫區移動;噹m(TEOS)/m(WPU)不超過1.00時,雜化膜錶麵粗糙度逐漸增大,可見光透光率逐漸減小,而隨著其增大到2.00,WPUS 雜化膜錶麵粗糙度減小,可見光透光率增大,即雜化膜透明度提高。
재음리자수성취안지분산체(WP U )존재하,채용용효-응효법,통과전구체정규산을지(TEOS)적수해、축합반응,제비출불동 SiO2함량적 WPU/SiO2(WPUS)잡화재료。통과투사전경、소묘탐침현미경、동태열궤계분석의、자외-가견광분광광도계분별연구료불동m(TEOS)/m(WPU)대 WPUS 잡화유액입자형모화잡화막표면형모、파리화전변온도(Tg )급투명도적영향。결과표명,당m(TEOS)/m(WPU)불초과0.50시,잡화유액중 SiO2입자이납미척촌균균분산,WP U연단T g 향고온구이동,수착기증대도2.00,SiO2입자축점증대도200 nm 이상,병유형성무궤련속상적추세,차 WP U 연단T g 우향저온구이동;당m(TEOS)/m(WPU)불초과1.00시,잡화막표면조조도축점증대,가견광투광솔축점감소,이수착기증대도2.00,WPUS 잡화막표면조조도감소,가견광투광솔증대,즉잡화막투명도제고。
WPU/silica hybrid materials with different content of silica were synthesized by the hydrolysis and condensation of tetraethoxysilane (TEOS)in the presence of anionic WPU dispersion.Influence of m(TEOS)/m(WPU)on the morphology of WPU/silica (WPUS)hybrid emulsion particles,surface morphology,glass transition temperature (Tg )and transmittance of hybrid films were investigated by transmission electron mi-croscopy,scanning probe microscopy,dynamic mechanical analyzer and UV-visible spectrophotometer,respec-tively.When m(TEOS)/m(WPU)was less than 0.50,the silica particle of the hybrid emulsion was distributed uniformly in nanoscale level,and the Tg of soft segment of WPU increases.Whereas the Tg of soft segment of WPU decreases,the particle size of silica increases gradually to more than 200 nm,and the silica particles tend to form a continuous phase when m(TEOS)/m(WPU)increases from 1.00 to 2.00.The surface roughness in-creases and transmittance in the visible zone decreases when m(TEOS)/m(WPU)was not higher than 1.00, the converse was true when that was above 1.00.
