东北农业大学学报
東北農業大學學報
동북농업대학학보
JOURNAL OF NORTHEAST AGRICULTURAL UNIVERSITY
2014年
5期
44-51
,共8页
吴红艳%孙长豹%刘宁%许英一%刘然
吳紅豔%孫長豹%劉寧%許英一%劉然
오홍염%손장표%류저%허영일%류연
微乳%月见草油%微观结构%差示扫描量热法%电导法
微乳%月見草油%微觀結構%差示掃描量熱法%電導法
미유%월견초유%미관결구%차시소묘량열법%전도법
microemulsions%evening primrose oil%microstructure%differential scanning calorimeter%conductometry
采用差示扫描量热法鉴定微乳的类型及微乳中水存在状态;通过对不同组分中苏丹Ⅱ熔点测定,推断体系中苏丹Ⅱ存在位置;通过透射电镜观察微乳形态;采用电导法划分微乳液类型。结果表明,微乳液为均匀球状液滴。通过电导法可将微乳分为W/O微乳区、O/W微乳区、LC液晶区和B.C.双连续区。不同类型的微乳热分析曲线不同,10??1微乳液随水分含量的增高体系由W/O型微乳液转变为O/W型微乳;体系中水存在状态由束缚水过渡到自由水。7??3微乳含水量小于30%时热分析曲线无明显改变。苏丹Ⅱ在水包油型微乳中被包封在月见草油中。
採用差示掃描量熱法鑒定微乳的類型及微乳中水存在狀態;通過對不同組分中囌丹Ⅱ鎔點測定,推斷體繫中囌丹Ⅱ存在位置;通過透射電鏡觀察微乳形態;採用電導法劃分微乳液類型。結果錶明,微乳液為均勻毬狀液滴。通過電導法可將微乳分為W/O微乳區、O/W微乳區、LC液晶區和B.C.雙連續區。不同類型的微乳熱分析麯線不同,10??1微乳液隨水分含量的增高體繫由W/O型微乳液轉變為O/W型微乳;體繫中水存在狀態由束縳水過渡到自由水。7??3微乳含水量小于30%時熱分析麯線無明顯改變。囌丹Ⅱ在水包油型微乳中被包封在月見草油中。
채용차시소묘량열법감정미유적류형급미유중수존재상태;통과대불동조분중소단Ⅱ용점측정,추단체계중소단Ⅱ존재위치;통과투사전경관찰미유형태;채용전도법화분미유액류형。결과표명,미유액위균균구상액적。통과전도법가장미유분위W/O미유구、O/W미유구、LC액정구화B.C.쌍련속구。불동류형적미유열분석곡선불동,10??1미유액수수분함량적증고체계유W/O형미유액전변위O/W형미유;체계중수존재상태유속박수과도도자유수。7??3미유함수량소우30%시열분석곡선무명현개변。소단Ⅱ재수포유형미유중피포봉재월견초유중。
The structure and the structural transformation of the microemulsions were investigated by DSC method. The existing position of SudanⅡ was determined by melting point of the different component. The shape of microemulsions droplets was measured by transmission electron microscope (TEM).The microstructures of microemulsions were determined through conductance. These results indicated that the microemulsions were partitioned as W/O, O/W, LC and B.C. microemulsion domains. Differential scanning calorimeter (DSC) curves were significantly different because of different type microemulsions. Along with the increase of water content, the systems inverted from water-in-oil to oil-in-water in 10??1 microemulsion. As the water content is less than 30%, DSC curve did not change significantly in 7??3 microemulsion. SudanⅡparticles were exsited in the oil phase of oil-in-water microe-mulsions.
