CN106167557A - 一种可使农作物增产的可降解生物淀粉地膜 - Google Patents
一种可使农作物增产的可降解生物淀粉地膜 Download PDFInfo
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Abstract
本发明公开了一种可使农作物增产的可降解生物淀粉地膜,由以下重量份的原料制备制成:干基玉米淀粉64‑70、乙醇23‑26、一氯乙酸11‑15、二氧化硅14‑16、环氧氯丙烷0.08‑0.1、二甲基甲酰胺60‑80、钡锌复合稳定剂1‑2、硬脂酸钙2‑3、茶多糖5‑7、蛭石8‑11、尿素2‑3、PE蜡2‑3、85%乙醇溶液适量、去离子水适量;本发明制备的地膜材料降解速度快,能改善土壤环境,改善肥力,促进农作物增产,不含有毒有害物质,成分安全,经济环保。
Description
技术领域
本发明涉及农用地膜技术领域,尤其涉及一种可使农作物增产的可降解生物淀粉地膜。
背景技术
目前,地膜覆盖技术在农业中得到了广泛推广,应用到了小麦、水稻、玉米、大豆、高粱、棉花等作物的种植中,增产效果明显,由于现在大量使用的地膜是不可降解的高分子化合物,既不受微生物侵蚀,也不能自行分解。长此下去,必然会给后人带来难以解决的污染危害。因此,研究可降解地膜逐渐受到重视。淀粉是自然界丰富的可再生资源,它无毒无害,可完全生物降解,然而较差的力学性能与防水性能却限制了其应用。 其应用受到限制。淀粉是一种可再生资源,不仅来源广泛,价格低廉,且其制品在使用中具有优异的环保性能,废弃后能迅速降解,源于自然,回归自然。但是,由于淀粉是一种强极性的结晶性物质,分子内与分子间存在着大量的氢键,一般条件下热塑性差,难以加工成型,且所制得的产品存在着力学强度低、耐水性差和湿强度低等缺点,因此,如何提高淀粉材料的强度、韧性和防水性是淀粉类全生物降解材料能真正替代塑料原料的一个急需解决的问题。通过对淀粉改性,淀粉颗粒膨胀,结构发生变化,结晶度降低,具有一定的分子柔顺性,且成膜性好,与高分子树脂的相容性提高,这样大大的提高了淀粉地膜的性能,使其应用范围更广。
《疏水化改性淀粉/PVA生物降解塑料地膜的研究》一文中,作者以玉米淀粉为原料,经过羧甲基醚化、交联双改性,其中醚化温度为74.44℃,氢氧化钠/淀粉的摩尔比值1.85,醚化时间2.33h,乙醇浓度为84.65%,交联改性过程中,使用环氧氯丙烷作为交联剂,用量为0.05%,交联时间为1.0h,氢氧化钠用量为1.5%,然后得到热塑性较强的交联-羧甲基淀粉,再利用其与PVA共混,经过交联、增速、疏水化改性,膜的力学性能达到标准要求,吸水率大大降低,但是其综合性能还达不到实际使用的需要,需要对其进一步改性满足各种使用需求,以提高淀粉膜的机械性能、韧性、强度和其他属性,扩大应用范围。
发明内容
本发明目的就是为了弥补已有技术的缺陷,提供一种可使农作物增产的可降解生物淀粉地膜。
本发明是通过以下技术方案实现的:
一种可使农作物增产的可降解生物淀粉地膜,由以下重量份的原料制备制成:干基玉米淀粉64-70、乙醇23-2一氯乙酸11-15、二氧化硅14-16、环氧氯丙烷0.08-0.1、二甲基甲酰胺60-80、钡锌复合稳定剂1-2、硬脂酸钙2-3、茶多糖5-7、蛭石8-11、尿素2-3、PE蜡2-3、85%乙醇溶液适量、去离子水适量。
所述一种可使农作物增产的可降解生物淀粉地膜,由以下具体步骤制备制成:
(1)将干基玉米淀粉和6-10倍量的氢氧化钠混合均匀,转到反应釜中搅拌,转速为80-100r/min,在35℃下搅拌反应30min,将乙醇溶液和一氯乙酸混合均匀后,喷在淀粉表面继续搅拌10min,反应结束后,冷却至室温,然后用85%乙醇溶液洗涤上述改性淀粉并加入适量冰醋酸,调节pH为7.0,抽滤,继续用85%乙醇水溶液洗涤滤饼2-3次,然后在鼓风干燥机中50℃下干燥2-3h,粉碎、筛分过100目,得到羧甲基淀粉;
(2)将步骤(1)制备的羧甲基淀粉加到碱性溶液中调成粉浆,碱性溶液和羧甲基淀粉按照体积质量比ml:g1.5-2:1混合,然后置于70-80℃的恒温水浴锅中不断搅拌,将环氧氯丙烷溶解于适量碱液中,3-5min内全部滴入淀粉乳中,反应1-3h,反应完毕后用盐酸调节溶液的ph值至6-7,静置一段时间,洗涤,抽滤,置于干燥箱中在55℃干燥4h,制得交联-羧甲基淀粉;
(3)将蛭石清洗干净后置于200-300℃下焙烧1-2h,冷却至室温后定向破碎成200-300目粉末,将茶多糖用0.1%的柠檬酸溶解制成质量百分比浓度为0.8-1%的多糖溶液,将蛭石粉末加到3-4倍量的去离子水中搅拌形成悬浮液,再加入茶多糖溶液,快速搅拌均匀,调节pH值至中性后在室温下进行超声振荡,时间为40-60min,功率为90W;
(4)将步骤(2)制备的产物配置成浓度为38-48g/L的淀粉乳,加入步骤(3)制备的产物在95-100℃下搅拌30-40min,搅拌结束后加入其余剩余物质继续搅拌50-60min,再将混合乳液转移至均质器18000r/min均质5min,形成均匀的成膜液,然后将成膜液于0.09MPa真空度下脱气20min,流延成膜即可。
所述一种稳定的可降解生物淀粉地膜,所述碱性溶液是由氢氧化钠和氯化钠按照质量比2-3:1混合,然后用总重量3-4倍量的去离子水溶解搅拌均匀得到。
本发明的优点是:本发明利用玉米淀粉为原料,经过羧甲基醚化、交联双改性,制得改性的玉米淀粉,大大的增加了淀粉的表面基团,分子间存在强的化学键合作用,对流动产生的粘性阻力增大,表观黏度上升,阻碍了淀粉糊中直链分子间的重新排列和缔合,增加了淀粉低温分散系的保水性,大大减少了凝沉和凝胶倾向,并且提高了透光率和降低了亲水性,满足了农作物对光照的要求,以及提高了成膜的优良性和稳定性,多糖是具有特殊的长链螺旋分子结构,化学性质稳定,成膜性能较好,阻气性也优良,阻湿性能较差,蛭石是土壤优良的改良剂,利用多糖改性蛭石使其在淀粉糊中相容好,分散能力强,能够有效的提高地膜的机械性能,并且可以提高土壤的肥力,对土壤重金属或有机污染物质如杀虫剂、除草剂等具有良好的去除,本发明制备的地膜材料降解速度快,能改善土壤环境,改善肥力,促进农作物增产,不含有毒有害物质,成分安全,经济环保。
具体实施方式
一种可使农作物增产的可降解生物淀粉地膜,由以下重量份(公斤)的原料制备制成:干基玉米淀粉64、乙醇23、一氯乙酸11、二氧化硅14、环氧氯丙烷0.08、二甲基甲酰胺60、钡锌复合稳定剂1、硬脂酸钙2、茶多糖5、蛭石8、尿素2、PE蜡2、85%乙醇溶液适量、去离子水适量。
所述一种可使农作物增产的可降解生物淀粉地膜,由以下具体步骤制备制成:
(1)将干基玉米淀粉和6倍量的氢氧化钠混合均匀,转到反应釜中搅拌,转速为80r/min,在35℃下搅拌反应30min,将乙醇溶液和一氯乙酸混合均匀后,喷在淀粉表面继续搅拌10min,反应结束后,冷却至室温,然后用85%乙醇溶液洗涤上述改性淀粉并加入适量冰醋酸,调节pH为7.0,抽滤,继续用85%乙醇水溶液洗涤滤饼2次,然后在鼓风干燥机中50℃下干燥2h,粉碎、筛分过100目,得到羧甲基淀粉;
(2)将步骤(1)制备的羧甲基淀粉加到碱性溶液中调成粉浆,碱性溶液和羧甲基淀粉按照体积质量比ml:g1.5:1混合,然后置于70℃的恒温水浴锅中不断搅拌,将环氧氯丙烷溶解于适量碱液中,3min内全部滴入淀粉乳中,反应1h,反应完毕后用盐酸调节溶液的ph值至6,静置一段时间,洗涤,抽滤,置于干燥箱中在55℃干燥4h,制得交联羧甲基淀粉;
(3)将蛭石清洗干净后置于200℃下焙烧1h,冷却至室温后定向破碎成200目粉末,将茶多糖用0.1%的柠檬酸溶解制成质量百分比浓度为0.8%的多糖溶液,将蛭石粉末加到3倍量的去离子水中搅拌形成悬浮液,再加入茶多糖溶液,快速搅拌均匀,调节pH值至中性后在室温下进行超声振荡,时间为40min,功率为90W;
(4)将步骤(2)制备的产物配置成浓度为38g/L的淀粉乳,加入步骤(3)制备的产物在95℃下搅拌30min,搅拌结束后加入其余剩余物质继续搅拌50min,再将混合乳液转移至均质器18000r/min均质5min,形成均匀的成膜液,然后将成膜液于0.09MPa真空度下脱气20min,流延成膜即可。
所述一种稳定的可降解生物淀粉地膜,所述碱性溶液是由氢氧化钠和氯化钠按照质量比2:1混合,然后用总重量3倍量的去离子水溶解搅拌均匀得到。
按照实施例的方法制备淀粉膜,对其进行性能测试,结果如下:
抗拉强度(MPa):52.6;断裂伸长率(%):322%;透光率(600nm,%):77.4;水蒸气透过率(g.cm.cm-2.s-1.Pa-1):1.83×10-12 ;吸水率(%):2.8。
Claims (3)
1.一种可使农作物增产的可降解生物淀粉地膜,其特征在于,由以下重量份的原料制备制成:干基玉米淀粉64-70、乙醇23-26、一氯乙酸11-15、二氧化硅14-16、环氧氯丙烷0.08-0.1、二甲基甲酰胺60-80、钡锌复合稳定剂1-2、硬脂酸钙2-3、茶多糖5-7、蛭石8-11、尿素2-3、PE蜡2-3、85%乙醇溶液适量、去离子水适量。
2.根据权利要求1所述一种可使农作物增产的可降解生物淀粉地膜,其特征在于,由以下具体步骤制备制成:
(1)将干基玉米淀粉和6-10倍量的氢氧化钠混合均匀,转到反应釜中搅拌,转速为80-100r/min,在35℃下搅拌反应30min,将乙醇溶液和一氯乙酸混合均匀后,喷在淀粉表面继续搅拌10min,反应结束后,冷却至室温,然后用85%乙醇溶液洗涤上述改性淀粉并加入适量冰醋酸,调节pH为7.0,抽滤,继续用85%乙醇水溶液洗涤滤饼2-3次,然后在鼓风干燥机中50℃下干燥2-3h,粉碎、筛分过100目,得到羧甲基淀粉;
(2)将步骤(1)制备的羧甲基淀粉加到碱性溶液中调成粉浆,碱性溶液和羧甲基淀粉按照体积质量比ml:g1.5-2:1混合,然后置于70-80℃的恒温水浴锅中不断搅拌,将环氧氯丙烷溶解于适量碱液中,3-5min内全部滴入淀粉乳中,反应1-3h,反应完毕后用盐酸调节溶液的ph值至6-7,静置一段时间,洗涤,抽滤,置于干燥箱中在55℃干燥4h,制得交联-羧甲基淀粉;
(3)将蛭石清洗干净后置于200-300℃下焙烧1-2h,冷却至室温后定向破碎成200-300目粉末,将茶多糖用0.1%的柠檬酸溶解制成质量百分比浓度为0.8-1%的多糖溶液,将蛭石粉末加到3-4倍量的去离子水中搅拌形成悬浮液,再加入茶多糖溶液,快速搅拌均匀,调节pH值至中性后在室温下进行超声振荡,时间为40-60min,功率为90W;
(4)将步骤(2)制备的产物配置成浓度为38-48g/L的淀粉乳,加入步骤(3)制备的产物在95-100℃下搅拌30-40min,搅拌结束后加入其余剩余物质继续搅拌50-60min,再将混合乳液转移至均质器18000r/min均质5min,形成均匀的成膜液,然后将成膜液于0.09MPa真空度下脱气20min,流延成膜即可。
3.根据权利要求2所述一种稳定的可降解生物淀粉地膜,其特征在于,所述碱性溶液是由氢氧化钠和氯化钠按照质量比2-3:1混合,然后用总重量3-4倍量的去离子水溶解搅拌均匀得到。
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