高分子通报
高分子通報
고분자통보
POLYMER BULLETIN
2010年
1期
51-55
,共5页
细乳液聚合%含氟接枝共聚物%助稳定剂
細乳液聚閤%含氟接枝共聚物%助穩定劑
세유액취합%함불접지공취물%조은정제
Miniemulsion polymerization%Graft fluoropolymer%co-Stabilizer
以含氟接枝共聚物(PSG)单独作为助稳定剂,十二烷基硫酸钠(SDS)为乳化剂,过硫酸钾( KPS)为引发剂引发苯乙烯(St)的细乳液聚合.考察了聚合温度、乳化剂用量、引发剂用量和PSG用量对细乳液聚合转化率的影响.结果表明,以PSG单独作为助稳定剂,细乳液聚合过程较稳定,起始单体液滴数目与成核粒子数目几乎相等.最终转化率随着乳化剂用量和反应温度的提高而增加,引发剂用量影响不明显.在相同的反应条件下,分别以相同用量 (w.t.%=0.091%时,占单体和水的总质量) 的PSG和十六醇为助稳定剂用于苯乙烯细乳液聚合,反应290min后,PSG体系的聚合转化率达到87.2%,而十六醇体系的聚合转化率只有78.2%.
以含氟接枝共聚物(PSG)單獨作為助穩定劑,十二烷基硫痠鈉(SDS)為乳化劑,過硫痠鉀( KPS)為引髮劑引髮苯乙烯(St)的細乳液聚閤.攷察瞭聚閤溫度、乳化劑用量、引髮劑用量和PSG用量對細乳液聚閤轉化率的影響.結果錶明,以PSG單獨作為助穩定劑,細乳液聚閤過程較穩定,起始單體液滴數目與成覈粒子數目幾乎相等.最終轉化率隨著乳化劑用量和反應溫度的提高而增加,引髮劑用量影響不明顯.在相同的反應條件下,分彆以相同用量 (w.t.%=0.091%時,佔單體和水的總質量) 的PSG和十六醇為助穩定劑用于苯乙烯細乳液聚閤,反應290min後,PSG體繫的聚閤轉化率達到87.2%,而十六醇體繫的聚閤轉化率隻有78.2%.
이함불접지공취물(PSG)단독작위조은정제,십이완기류산납(SDS)위유화제,과류산갑( KPS)위인발제인발분을희(St)적세유액취합.고찰료취합온도、유화제용량、인발제용량화PSG용량대세유액취합전화솔적영향.결과표명,이PSG단독작위조은정제,세유액취합과정교은정,기시단체액적수목여성핵입자수목궤호상등.최종전화솔수착유화제용량화반응온도적제고이증가,인발제용량영향불명현.재상동적반응조건하,분별이상동용량 (w.t.%=0.091%시,점단체화수적총질량) 적PSG화십륙순위조은정제용우분을희세유액취합,반응290min후,PSG체계적취합전화솔체도87.2%,이십륙순체계적취합전화솔지유78.2%.
The graft fluorocopolymer (PSG) was used as the sole co-stabilizer in styrene mini-emulsion polymerization, in which SDS (Sodium dodecyl sulfate) was used as surfactant, potassium persulfate (KPS) as initiator. The effects of reaction temperature, mass of surfactant, mass of initiator and mass of PSG on the polymerization conversion were investigated. Results show that the polymerization process of the styrene miniemulsion polymerization was stable when PSG used as the sole co-stabilizer, and the initial number of monomer droplets and the number of latex particles were nearly equal. The final conversion increased with the reaction temperature and mass of SDS, but was not affected by mass of KPS. With the same reaction condition, when PSG and traditional co-stabilizer cetyl alcohol (CA) was used to co-stabilize the styrene miniemulsion polymerization respectively (mass weight 0.091w.t%, based on the total mass weight of water and monomer), the polymerization conversion was 87.2% at 290 min by PSG system, and was 78.2% by CA.
