The invention discloses a preparation method of a high strength water responsive cellulose based shape memory composite material. The dried sisal nano cellulose was dried and soaked in NaOH aqueous solution. The ethanol was added to the mixture, and chloroacetic acid was added to the mixed solution. The reaction was 2~3h at 70 C. The crude products of chloroacetic acid grafted sisal cellulose were obtained by centrifugation and drying. The crude and deionized water were mixed and cut 1~2h at high speed to obtain transparent jelly like products. Deionized water was used for dilution and high-speed centrifugal separation. 80% of the solution in the upper part of the centrifugal tube was chloroacetic acid grafted sisal nanocellulose. Sisal nanocellulose grafted with chloroacetic acid and graphene oxide were mixed in deionized water, and cake-like hydrogel membrane was obtained by core filter. Then, cellulose-based shape memory composites with high strength water response were prepared by drying in a blast dryer. The method is simple in operation, and the material has high water sensitivity and reversibility.
【技术实现步骤摘要】
一种高强度水响应纤维素基形状记忆复合材料的制备方法
本专利技术属于形状记忆生物基功能材料
尤其涉及一种高强度水响应纤维素基形状记忆复合材料的制备方法。
技术介绍
形状记忆聚合物(ShapeMemoryPolymers,SMPs)是智能材料家族中最典型的一员。主要是指具有一定初始形状的聚合物,经过一定的外界作用,形变固定后,再通过光能、电能、热能、生物能、化学条件改变(酸碱度,螯合反应和相转变)等外界条件刺激又可以恢复原始形状的聚合物。正因为具有这种特殊的性能,SMPs具有广泛的应用范围,小到日常生活中的食物器皿用具,大到工程应用、航天航空、生物医用、智能纺织、传感显示器件、自动控制系统等领域。尤其是在生物医疗材料领域占有非常重要的地位,现在医学材料已报道的有人造肌肉、人造皮肤、药物自动投入系统上、手术缝合线、支架、心脏瓣膜(仿生膜材)、组织工程等。与传统的形状记忆合金(ShapeMemoryAlloys,SMA)和形状记忆陶瓷(ShapeMemoryCeramics,SMC)这两种材料相比,SMPs具有以下优点:(1)较高的弹性和良好的可回复性;(2)结构...
【技术保护点】
1.一种高强度水响应纤维素基形状记忆复合材料的制备方法,其特征在于具体步骤为:(1)称取10~14g干燥的剑麻纳米纤维素,放入50~70mL 浓度为10wt% 的NaOH水溶液中碱化、浸湿4~6min,将浸湿的剑麻纳米纤维素转移到三口烧瓶中,加入300~350mL无水乙醇作溶剂并机械搅拌30min,然后加入3~7g氯乙酸,升温至70℃机械搅拌下反应2~3h,反应结束后用蒸馏水反复离心洗涤至pH值呈中性,干燥得到氯乙酸接枝剑麻纤维素的粗产物,将粗产物与100~200mL的去离子水混合,将混合液用高速搅拌机高速剪切1~2h,得到透明果冻状的产物,加入100~200mL去离子水稀...
【技术特征摘要】
1.一种高强度水响应纤维素基形状记忆复合材料的制备方法,其特征在于具体步骤为:(1)称取10~14g干燥的剑麻纳米纤维素,放入50~70mL浓度为10wt%的NaOH水溶液中碱化、浸湿4~6min,将浸湿的剑麻纳米纤维素转移到三口烧瓶中,加入300~350mL无水乙醇作溶剂并机械搅拌30min,然后加入3~7g氯乙酸,升温至70℃机械搅拌下反应2~3h,反应结束后用蒸馏水反复离心洗涤至pH值呈中性,干燥得到氯乙酸接枝剑麻纤维素的粗产物,将粗产物与100~200mL的去离子水混合,将混合液用高速搅拌机高速剪切1~2h,得到透明果冻状的产物,加入10...
【专利技术属性】
技术研发人员:陆绍荣,宋赖福,潘露露,李裕琪,徐旭,陆天韵,
申请(专利权)人:桂林理工大学,
类型:发明
国别省市:广西,45
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