硅酸盐学报
硅痠鹽學報
규산염학보
JOURNAL OF THE CHINESE CERAMIC SOCIETY
2007年
11期
1430-1433
,共4页
柴卉%曾令可%刘平安%王慧%程小苏%税安泽
柴卉%曾令可%劉平安%王慧%程小囌%稅安澤
시훼%증령가%류평안%왕혜%정소소%세안택
周相反应%脂肪酸%纳米材料%相变材料%复合材料
週相反應%脂肪痠%納米材料%相變材料%複閤材料
주상반응%지방산%납미재료%상변재료%복합재료
solid-state reaction%fatty acid%nanomaterials%phase change materials%composite
采用低热固相化学反应法,一步制备了表面包覆SiO2的硬脂酸相变储能纳米粒子.由红外光谱、X射线衍射和差示扫描量热法对表面包覆SiO2的硬脂酸纳米粒子进行了表征.利用动态光散射激光力度仪测定了材料的粒径分布,同时对材料表面包覆前后的接触角进行了测定.结果表明:硬脂酸纳米粒子表面成功包覆了SiO2层.包覆的硬脂酸纳米粒子为球状,粒径大约为110 nm.包覆的硬脂酸纳米粒子相转变温度为61.4℃,相变过程中的焓值为153.1 J/g,具有良好的蓄热能力,可用于太阳能利用等方面的储能蓄热.
採用低熱固相化學反應法,一步製備瞭錶麵包覆SiO2的硬脂痠相變儲能納米粒子.由紅外光譜、X射線衍射和差示掃描量熱法對錶麵包覆SiO2的硬脂痠納米粒子進行瞭錶徵.利用動態光散射激光力度儀測定瞭材料的粒徑分佈,同時對材料錶麵包覆前後的接觸角進行瞭測定.結果錶明:硬脂痠納米粒子錶麵成功包覆瞭SiO2層.包覆的硬脂痠納米粒子為毬狀,粒徑大約為110 nm.包覆的硬脂痠納米粒子相轉變溫度為61.4℃,相變過程中的焓值為153.1 J/g,具有良好的蓄熱能力,可用于太暘能利用等方麵的儲能蓄熱.
채용저열고상화학반응법,일보제비료표면포복SiO2적경지산상변저능납미입자.유홍외광보、X사선연사화차시소묘량열법대표면포복SiO2적경지산납미입자진행료표정.이용동태광산사격광력도의측정료재료적립경분포,동시대재료표면포복전후적접촉각진행료측정.결과표명:경지산납미입자표면성공포복료SiO2층.포복적경지산납미입자위구상,립경대약위110 nm.포복적경지산납미입자상전변온도위61.4℃,상변과정중적함치위153.1 J/g,구유량호적축열능력,가용우태양능이용등방면적저능축열.
The synthesis of SiO2 coated stearic acid (SA) nanoparticles via one-step, low heating temperature solid-state chemical reaction is reported. Analytical results of infrared spectroscopy and X-ray diffraction indicate that the SA was coated with a layer of SiO2. The morphology revealed by scanning electron microscopy suggests that the samples were comprised of sphere-like nanoparticles with an average diameter of about 110 nm. The particle size distribution of the samples and the contact angles were determined by dynamic light scattering and a contact angle system. The as-prepared samples were studied with differential scanning calorimetry.The phase transformation temperatures is 61.4 ℃and the fusion enthalpy is 153.1J/g. The results show that the samples possess reasonable thermal properties as phase change materials for latent heat storage.
