合成技术及应用
閤成技術及應用
합성기술급응용
SYNTHETIC TECHNOLOGY AND APPLICATION
2014年
2期
1-4,13
,共5页
刘晓辉%杨海茹%张慧慧%邵惠丽%胡学超
劉曉輝%楊海茹%張慧慧%邵惠麗%鬍學超
류효휘%양해여%장혜혜%소혜려%호학초
纤维素%NMMO%海绵%成孔剂
纖維素%NMMO%海綿%成孔劑
섬유소%NMMO%해면%성공제
cellulose%NMMO%sponge%pore-forming agent
以 N-甲基吗啉-N-氧化物(NMMO)为溶剂、以棉浆粕为原料、以无水硫酸钠为成孔剂制备了纤维素海绵,探讨了成孔剂用量对纤维素海绵形态结构、孔隙率、吸水性、保湿性和拉伸强度的影响。结果表明,随着成孔剂用量的提高,所制得的纤维素海绵平均孔径变大,孔壁变薄,通孔增多,但成孔剂用量过多时,海绵孔壁会产生轻微断裂。此外,随着成孔剂用量的提高,海绵的孔隙率及吸水保湿性提高,拉伸强度则有所下降,综合考虑海绵的性能及成型过程的难易程度等因素,当成孔剂用量为纤维素溶液的3倍为宜,所得纤维素海绵的孔隙结构均匀饱满、综合性能较高。
以 N-甲基嗎啉-N-氧化物(NMMO)為溶劑、以棉漿粕為原料、以無水硫痠鈉為成孔劑製備瞭纖維素海綿,探討瞭成孔劑用量對纖維素海綿形態結構、孔隙率、吸水性、保濕性和拉伸彊度的影響。結果錶明,隨著成孔劑用量的提高,所製得的纖維素海綿平均孔徑變大,孔壁變薄,通孔增多,但成孔劑用量過多時,海綿孔壁會產生輕微斷裂。此外,隨著成孔劑用量的提高,海綿的孔隙率及吸水保濕性提高,拉伸彊度則有所下降,綜閤攷慮海綿的性能及成型過程的難易程度等因素,噹成孔劑用量為纖維素溶液的3倍為宜,所得纖維素海綿的孔隙結構均勻飽滿、綜閤性能較高。
이 N-갑기마람-N-양화물(NMMO)위용제、이면장박위원료、이무수류산납위성공제제비료섬유소해면,탐토료성공제용량대섬유소해면형태결구、공극솔、흡수성、보습성화랍신강도적영향。결과표명,수착성공제용량적제고,소제득적섬유소해면평균공경변대,공벽변박,통공증다,단성공제용량과다시,해면공벽회산생경미단렬。차외,수착성공제용량적제고,해면적공극솔급흡수보습성제고,랍신강도칙유소하강,종합고필해면적성능급성형과정적난역정도등인소,당성공제용량위섬유소용액적3배위의,소득섬유소해면적공극결구균균포만、종합성능교고。
Cellulose sponges were prepared by using N-methylmorpholine-N-oxide (NMMO)as the solvent, cotton pulp as raw material and anhydrous sodium sulfate as the pore-forming agent.The effect of the amount of pore-forming agent on the morphological structure,porosity,water absorption,moisture retention capacity and ten-sile strength of cellulose sponge were investigated.The results showed that with the increase of the amount of the pore-forming agent,cellulose sponge exhibited larger average pore size,thinner walls of the pore and more open-pore structure.However,a slight fracture could be observed in the walls of the pore structure of sponge with the ex-cess amount of pore-forming agent.In addition,with the increasing amount of the pore-forming agent,the porosity, water absorption and moisture retention capacity of sponge were increased while the tensile strength was decreased. By comprehensively considering the properties of cellulose sponge and the difficulty of forming process,the amount of pore-forming agent was selected to be three times the mass of cellulose/NMMO·H2 O solution,and the cellulose sponge showed higher comprehensive performance with more homogeneous and completed pore structure.