CN110271249B - 一种全遮光窗帘面料的制备方法 - Google Patents
一种全遮光窗帘面料的制备方法 Download PDFInfo
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- A47H—FURNISHINGS FOR WINDOWS OR DOORS
- A47H23/00—Curtains; Draperies
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Abstract
本发明公开了一种全遮光窗帘面料的制备方法,包括如下步骤:步骤1,将二甲基二氯硅烷加入至乙醚中搅拌均匀,然后滴加蒸馏水并低温搅拌反应1‑3h,得到粘稠的初步水解液;步骤2,将基底布料平铺,并喷洒无水乙醇中完全润湿,然后将初步水解液均匀涂覆在基底布料表面,得到一级镀膜层;步骤3,将钛酸正丁酯加入至无水乙醇中,并加入甲基纤维素搅拌均匀,得到分散钛醇液,然后将黑色竹炭纤维加入至钛醇液中,搅拌形成分散悬浊液;步骤4,将分散悬浊液均匀涂覆在一级镀膜层表面,得到二级镀膜层,然后依次将色浆层和复合纤维层平覆在二级镀膜层表面,得到镀膜面料;步骤5,将镀膜面料梯度恒温加压反应3‑5h,降压冷却后得到全遮光窗帘面料。
Description
技术领域
本发明属于窗帘领域,具体涉及一种全遮光窗帘面料的制备方法。
背景技术
遮光门帘不仅能够给人们的私人空间提供最大程度的保护,而且具有调节室内光线、阻挡强光以及紫外线的功效,对人的皮肤有缓解衰老的作用,也可以保护家具的寿命,与此同时,遮光门帘夏天隔热,防蚊,冬天保温,为消费者创造了一个良好的家具环境。
遮光布的材质主要有两种:一种是正面为原始的胚布,背面是PVC涂层。价格较低,但环保性能差;第二种为网格状胚布上加PVC布,背面也是涂层,类似塑料质地,比前一种厚,遮光效果较好,缺点是比较脆,手感发硬、哗哗作响,不隔音,不隔热。
发明内容
针对现有技术中的问题,本发明提供一种全遮光窗帘面料的制备方法,解决了遮光布材质差,无法满足需求的问题,通过以甲基有机硅作为复合粘结剂,将色浆层和复合层凝固在基底布料表面,不仅提升了粘结稳定性,同时也提高了韧性和耐候性、防水、防盐雾、防霉菌等特性。
为实现以上技术目的,本发明的技术方案是:
一种全遮光窗帘面料的制备方法,包括如下步骤:
步骤1,将二甲基二氯硅烷加入至乙醚中搅拌均匀,然后滴加蒸馏水并低温搅拌反应1-3h,得到粘稠的初步水解液;
步骤2,将基底布料平铺,并喷洒无水乙醇中完全润湿,然后将初步水解液均匀涂覆在基底布料表面,得到一级镀膜层;
步骤3,将钛酸正丁酯加入至无水乙醇中,并加入甲基纤维素搅拌均匀,得到分散钛醇液,然后将黑色竹炭纤维加入至钛醇液中,搅拌形成分散悬浊液;
步骤4,将分散悬浊液均匀涂覆在一级镀膜层表面,得到二级镀膜层,然后依次将色浆层和复合纤维层平覆在二级镀膜层表面,得到镀膜面料;
步骤5,将镀膜面料梯度恒温加压反应3-5h,降压冷却后得到全遮光窗帘面料。
所述步骤1中的二甲基二氯硅烷在乙醚中的浓度为100-200g/L,所述滴加的速度为1-3mL/min,所述低温搅拌反应的搅拌速度为500-1000r/min,温度为2-6℃。
所述步骤2中的无水乙醇的喷洒量为1-3mL/cm2,所述均匀涂覆的涂覆量为5-10mL/cm2。
所述步骤3中的钛酸正丁酯在无水乙醇中的浓度为20-80g/L,甲基纤维素的加入量是钛酸正丁酯质量的10-15%,搅拌均匀的搅拌速度为500-800r/min,所述黑色竹炭纤维的加入量是钛酸正丁酯质量的150-300%。
所述步骤4中的均匀涂覆的涂覆量是5-10mL/cm2。
所述步骤4中的色浆层采用发泡色浆涂料纺丝编织而成,所述复合纤维层采用纳米纤维网,且所述纳米纤维网的厚度为0.1-0.9mm。
所述色浆层的制备方法如下:
步骤A,将聚丙烯酸钠加入至蒸馏水中,加入高取代羟丙基纤维素和水溶性色料低温超声分散30-60min,得到聚丙烯酸钠分散液;
步骤B,将聚丙烯酸钠分散液加入至静电纺丝机中静电纺丝反应,然后编织成单层纤维网;
步骤C,将电气石粉加入球磨机中湿法球磨30-60min,烘干后加入无水乙醇中搅拌均匀,得到浆料;
步骤D,将浆料均匀涂覆在单层纤维网表面,然后覆盖单层纤维网,重复2-3次,得到多层纤维网;
步骤E,将多层纤维网加入至烘箱内恒温反应2-4h,得到色浆层。
所述步骤A中的聚丙烯酸钠在蒸馏水中的浓度为100-500g/L,所述高取代羟丙基纤维素的加入量是聚丙烯酸钠质量的20-40%,所述水溶性色料的加入量是聚丙烯酸钠质量的2-8%,所述低温超声分散的温度为10-15℃,超声频率为20-40kHz;所述步骤B中的静电纺丝参数为:溶液推进速率为0.7-1.2mL/h,纺丝电压为15-25kV,接收距离为18-25cm,温度为100-120℃;步骤C中的湿法球磨的温度为30-50℃,所述浆料的浓度为100-500g/L;所述步骤D中的涂覆量为2-6g/L;所述步骤E中的恒温反应的温度为80-90℃,压力为0.12-0.15MPa。
所述步骤5中的梯度恒温加压反应的程序如下:
温度 | 时间 | 压力 |
80-90℃ | 20-30min | 0.1-0.2MPa |
110-140℃ | 剩余时间 | 0.2-0.3MPa |
步骤1将二甲基二氯硅烷加入至乙醚中,形成溶解液,然后滴加蒸馏水促进水解反应,同时低温搅拌能够利用低温条件下水解产物的低活性,阻止团聚反应的形成,搅拌能够保证蒸馏水与二甲基二氯硅烷的充分接触,保证水解反应的彻底进行,得到粘稠的初步水解液。
步骤2将基底布料润湿,将布料形成浸液松软,打开布料丝线的空隙,通过均匀涂覆水解液的方式将水解产物均匀分布在布料表面,由于水与无水乙醇具有互溶特性,形成蒸馏水的快速渗透,进入丝线内,水解产物随着蒸馏水的渗透,充满丝线内部,形成丝线材料与水解产物的充分混合,得到充分渗透粘附的一级镀膜层。
步骤3将钛酸正丁酯加入至无水乙醇中,并采用甲基纤维素作为分散剂,搅拌均匀形成具有良好分散效果的钛醇液,然后将黑色竹炭纤维加入至钛醇液中搅拌均匀,由于甲基纤维素具有良好的分散体系,提升黑色竹炭纤维的分散效果。
步骤4将在悬浊液均匀涂覆在一级镀膜层表面,形成二级镀膜层,并在二级镀膜层上依次设置色浆层和复合纤维层,形成镀膜面料。
步骤5通过梯度恒温加压反应的方式促使一级镀膜层内的乙醚和蒸馏水、二级镀膜层内的无水乙醇快速去除,同时在镀膜过程中钛酸正丁酯遇水水解形成二氧化钛和丁酯,丁酯在反应过程中快速去除,而二氧化钛渗透至一级镀膜层内,加压过程能够一级镀膜层、二级镀膜层、色浆层和复合纤维层充分复合并固化,恒温反应还带来二甲基而氯硅烷的水解产物形成缩聚反应,达到立体网络结构,提升面料的稳定性,也保证了黑色竹炭纤维的均匀覆盖,达到全遮光效果。
步骤A将聚丙烯酸钠溶解在水中,因聚丙烯酸钠遇水膨胀,故此能够快速膨胀,形成水溶液胶体,将高取代羟丙基纤维素和水溶性色料加入溶液中,能够形成快速溶解,同时与胶体接触,达到渗透分散。
步骤B将聚丙烯酸钠分散液静电纺丝形成纤维纺丝,由于高取代羟丙基纤维素在静电纺丝中形成胶体固化,将蒸馏水转化为气态,形成良好的纺丝纤维,然后编织成单层纤维网,纤维丝内采用聚丙烯酸钠与高取代纤维素混合而成。
步骤C将电气石粉均匀球磨形成细粉颗粒,然后加入无水乙醇形成浆料。
步骤D将浆料均匀涂覆在单层纤维网表面,然后覆盖单层纤维网,重复几次,形成以浆料形成电气石粉膜为间隔层,以单层纤维网为固定层的多层纤维网,
步骤E将多层纤维网恒温反应,该过程中施加压力,确保多层纤维网形成加压,促使电气石粉挤压渗透至单层纤维网内,并且由于聚丙烯酸钠形成网络结构,能够对电气石粉形成固化,达到良好的紧密连接,不仅起到良好的色彩可控性,还能够释放负离子和杀菌。
从以上描述可以看出,本发明具备以下优点:
1.本发明解决了遮光布材质差,无法满足需求的问题,通过以甲基有机硅作为复合粘结剂,将色浆层和复合层凝固在基底布料表面,不仅提升了粘结稳定性,同时也提高了韧性和耐候性、防水、防盐雾、防霉菌等特性。
2.本发明以二甲基二氯硅烷为有机硅树脂的原材料,通过其水解产物缩聚固化过程与复合过程相结合,利用甲基硅树脂的立体网络结构形成渗透式固定,有效地提升了面料的牢固性与稳定性,同时提高了整体的弹性。
具体实施方式
结合实施例详细说明本发明,但不对本发明的权利要求做任何限定。
实施例1
一种全遮光窗帘面料的制备方法,包括如下步骤:
步骤1,将二甲基二氯硅烷加入至乙醚中搅拌均匀,然后滴加蒸馏水并低温搅拌反应1h,得到粘稠的初步水解液;
步骤2,将基底布料平铺,并喷洒无水乙醇中完全润湿,然后将初步水解液均匀涂覆在基底布料表面,得到一级镀膜层;
步骤3,将钛酸正丁酯加入至无水乙醇中,并加入甲基纤维素搅拌均匀,得到分散钛醇液,然后将黑色竹炭纤维加入至钛醇液中,搅拌形成分散悬浊液;
步骤4,将分散悬浊液均匀涂覆在一级镀膜层表面,得到二级镀膜层,然后依次将色浆层和复合纤维层平覆在二级镀膜层表面,得到镀膜面料;
步骤5,将镀膜面料梯度恒温加压反应3h,降压冷却后得到全遮光窗帘面料。
所述步骤1中的二甲基二氯硅烷在乙醚中的浓度为100g/L,所述滴加的速度为1mL/min,所述低温搅拌反应的搅拌速度为500r/min,温度为2℃。
所述步骤2中的无水乙醇的喷洒量为1mL/cm2,所述均匀涂覆的涂覆量为5mL/cm2。
所述步骤3中的钛酸正丁酯在无水乙醇中的浓度为20g/L,甲基纤维素的加入量是钛酸正丁酯质量的10%,搅拌均匀的搅拌速度为500r/min,所述黑色竹炭纤维的加入量是钛酸正丁酯质量的150%。
所述步骤4中的均匀涂覆的涂覆量是5mL/cm2。
所述步骤4中的色浆层采用发泡色浆涂料纺丝编织而成,所述复合纤维层采用纳米纤维网,且所述纳米纤维网的厚度为0.1mm。
所述色浆层的制备方法如下:
步骤A,将聚丙烯酸钠加入至蒸馏水中,加入高取代羟丙基纤维素和水溶性色料低温超声分散30min,得到聚丙烯酸钠分散液;
步骤B,将聚丙烯酸钠分散液加入至静电纺丝机中静电纺丝反应,然后编织成单层纤维网;
步骤C,将电气石粉加入球磨机中湿法球磨30min,烘干后加入无水乙醇中搅拌均匀,得到浆料;
步骤D,将浆料均匀涂覆在单层纤维网表面,然后覆盖单层纤维网,重复2次,得到多层纤维网;
步骤E,将多层纤维网加入至烘箱内恒温反应2h,得到色浆层。
所述步骤A中的聚丙烯酸钠在蒸馏水中的浓度为100g/L,所述高取代羟丙基纤维素的加入量是聚丙烯酸钠质量的20%,所述水溶性色料的加入量是聚丙烯酸钠质量的2%,所述低温超声分散的温度为10℃,超声频率为20kHz;所述步骤B中的静电纺丝参数为:溶液推进速率为0.7mL/h,纺丝电压为15kV,接收距离为18cm,温度为100℃;步骤C中的湿法球磨的温度为30℃,所述浆料的浓度为100g/L;所述步骤D中的涂覆量为2g/L;所述步骤E中的恒温反应的温度为80℃,压力为0.12MPa。
所述步骤5中的梯度恒温加压反应的程序如下:
温度 | 时间 | 压力 |
80℃ | 20min | 0.1MPa |
110℃ | 剩余时间 | 0.2MPa |
实施例2
一种全遮光窗帘面料的制备方法,包括如下步骤:
步骤1,将二甲基二氯硅烷加入至乙醚中搅拌均匀,然后滴加蒸馏水并低温搅拌反应3h,得到粘稠的初步水解液;
步骤2,将基底布料平铺,并喷洒无水乙醇中完全润湿,然后将初步水解液均匀涂覆在基底布料表面,得到一级镀膜层;
步骤3,将钛酸正丁酯加入至无水乙醇中,并加入甲基纤维素搅拌均匀,得到分散钛醇液,然后将黑色竹炭纤维加入至钛醇液中,搅拌形成分散悬浊液;
步骤4,将分散悬浊液均匀涂覆在一级镀膜层表面,得到二级镀膜层,然后依次将色浆层和复合纤维层平覆在二级镀膜层表面,得到镀膜面料;
步骤5,将镀膜面料梯度恒温加压反应5h,降压冷却后得到全遮光窗帘面料。
所述步骤1中的二甲基二氯硅烷在乙醚中的浓度为200g/L,所述滴加的速度为3mL/min,所述低温搅拌反应的搅拌速度为1000r/min,温度为6℃。
所述步骤2中的无水乙醇的喷洒量为3mL/cm2,所述均匀涂覆的涂覆量为10mL/cm2。
所述步骤3中的钛酸正丁酯在无水乙醇中的浓度为80g/L,甲基纤维素的加入量是钛酸正丁酯质量的15%,搅拌均匀的搅拌速度为800r/min,所述黑色竹炭纤维的加入量是钛酸正丁酯质量的300%。
所述步骤4中的均匀涂覆的涂覆量是10mL/cm2。
所述步骤4中的色浆层采用发泡色浆涂料纺丝编织而成,所述复合纤维层采用纳米纤维网,且所述纳米纤维网的厚度为0.9mm。
所述色浆层的制备方法如下:
步骤A,将聚丙烯酸钠加入至蒸馏水中,加入高取代羟丙基纤维素和水溶性色料低温超声分散60min,得到聚丙烯酸钠分散液;
步骤B,将聚丙烯酸钠分散液加入至静电纺丝机中静电纺丝反应,然后编织成单层纤维网;
步骤C,将电气石粉加入球磨机中湿法球磨60min,烘干后加入无水乙醇中搅拌均匀,得到浆料;
步骤D,将浆料均匀涂覆在单层纤维网表面,然后覆盖单层纤维网,重3次,得到多层纤维网;
步骤E,将多层纤维网加入至烘箱内恒温反应4h,得到色浆层。
所述步骤A中的聚丙烯酸钠在蒸馏水中的浓度为500g/L,所述高取代羟丙基纤维素的加入量是聚丙烯酸钠质量的40%,所述水溶性色料的加入量是聚丙烯酸钠质量的8%,所述低温超声分散的温度为15℃,超声频率为40kHz;所述步骤B中的静电纺丝参数为:溶液推进速率为1.2mL/h,纺丝电压为25kV,接收距离为25cm,温度为120℃;步骤C中的湿法球磨的温度为50℃,所述浆料的浓度为500g/L;所述步骤D中的涂覆量为6g/L;所述步骤E中的恒温反应的温度为90℃,压力为0.15MPa。
所述步骤5中的梯度恒温加压反应的程序如下:
温度 | 时间 | 压力 |
90℃ | 30min | 0.2MPa |
140℃ | 剩余时间 | 0.3MPa |
实施例3
一种全遮光窗帘面料的制备方法,包括如下步骤:
步骤1,将二甲基二氯硅烷加入至乙醚中搅拌均匀,然后滴加蒸馏水并低温搅拌反应2h,得到粘稠的初步水解液;
步骤2,将基底布料平铺,并喷洒无水乙醇中完全润湿,然后将初步水解液均匀涂覆在基底布料表面,得到一级镀膜层;
步骤3,将钛酸正丁酯加入至无水乙醇中,并加入甲基纤维素搅拌均匀,得到分散钛醇液,然后将黑色竹炭纤维加入至钛醇液中,搅拌形成分散悬浊液;
步骤4,将分散悬浊液均匀涂覆在一级镀膜层表面,得到二级镀膜层,然后依次将色浆层和复合纤维层平覆在二级镀膜层表面,得到镀膜面料;
步骤5,将镀膜面料梯度恒温加压反应4h,降压冷却后得到全遮光窗帘面料。
所述步骤1中的二甲基二氯硅烷在乙醚中的浓度为150g/L,所述滴加的速度为2mL/min,所述低温搅拌反应的搅拌速度为800r/min,温度为4℃。
所述步骤2中的无水乙醇的喷洒量为2mL/cm2,所述均匀涂覆的涂覆量为8mL/cm2。
所述步骤3中的钛酸正丁酯在无水乙醇中的浓度为60g/L,甲基纤维素的加入量是钛酸正丁酯质量的12%,搅拌均匀的搅拌速度为700r/min,所述黑色竹炭纤维的加入量是钛酸正丁酯质量的250%。
所述步骤4中的均匀涂覆的涂覆量是8mL/cm2。
所述步骤4中的色浆层采用发泡色浆涂料纺丝编织而成,所述复合纤维层采用纳米纤维网,且所述纳米纤维网的厚度为0.5mm。
所述色浆层的制备方法如下:
步骤A,将聚丙烯酸钠加入至蒸馏水中,加入高取代羟丙基纤维素和水溶性色料低温超声分散50min,得到聚丙烯酸钠分散液;
步骤B,将聚丙烯酸钠分散液加入至静电纺丝机中静电纺丝反应,然后编织成单层纤维网;
步骤C,将电气石粉加入球磨机中湿法球磨50min,烘干后加入无水乙醇中搅拌均匀,得到浆料;
步骤D,将浆料均匀涂覆在单层纤维网表面,然后覆盖单层纤维网,重复3次,得到多层纤维网;
步骤E,将多层纤维网加入至烘箱内恒温反应3h,得到色浆层。
所述步骤A中的聚丙烯酸钠在蒸馏水中的浓度为300g/L,所述高取代羟丙基纤维素的加入量是聚丙烯酸钠质量的30%,所述水溶性色料的加入量是聚丙烯酸钠质量的6%,所述低温超声分散的温度为13℃,超声频率为30kHz;所述步骤B中的静电纺丝参数为:溶液推进速率为0.9mL/h,纺丝电压为20kV,接收距离为20cm,温度为110℃;步骤C中的湿法球磨的温度为40℃,所述浆料的浓度为300g/L;所述步骤D中的涂覆量为4g/L;所述步骤E中的恒温反应的温度为85℃,压力为0.14MPa。
所述步骤5中的梯度恒温加压反应的程序如下:
温度 | 时间 | 压力 |
85℃ | 25min | 0.2MPa |
130℃ | 剩余时间 | 0.2MPa |
综上所述,本发明具有以下优点:
1.本发明解决了遮光布材质差,无法满足需求的问题,通过以甲基有机硅作为复合粘结剂,将色浆层和复合层凝固在基底布料表面,不仅提升了粘结稳定性,同时也提高了韧性和耐候性、防水、防盐雾、防霉菌等特性。
2.本发明以二甲基二氯硅烷为有机硅树脂的原材料,通过其水解产物缩聚固化过程与复合过程相结合,利用甲基硅树脂的立体网络结构形成渗透式固定,有效地提升了面料的牢固性与稳定性,同时提高了整体的弹性。
可以理解的是,以上关于本发明的具体描述,仅用于说明本发明而并非受限于本发明实施例所描述的技术方案。本领域的普通技术人员应当理解,仍然可以对本发明进行修改或等同替换,以达到相同的技术效果;只要满足使用需要,都在本发明的保护范围之内。
Claims (9)
1.一种全遮光窗帘面料的制备方法,其特征在于,包括如下步骤:
步骤1,将二甲基二氯硅烷加入至乙醚中搅拌均匀,然后滴加蒸馏水并低温搅拌反应1-3h,得到粘稠的初步水解液;
步骤2,将基底布料平铺,并喷洒无水乙醇中完全润湿,然后将初步水解液均匀涂覆在基底布料表面,得到一级镀膜层;
步骤3,将钛酸正丁酯加入至无水乙醇中,并加入甲基纤维素搅拌均匀,得到分散钛醇液,然后将黑色竹炭纤维加入至钛醇液中,搅拌形成分散悬浊液;
步骤4,将分散悬浊液均匀涂覆在一级镀膜层表面,得到二级镀膜层,然后依次将色浆层和复合纤维层平覆在二级镀膜层表面,得到镀膜面料;
步骤5,将镀膜面料梯度恒温加压反应3-5h,降压冷却后得到全遮光窗帘面料。
2.根据权利要求1所述的全遮光窗帘面料的制备方法,其特征在于:所述步骤1中的二甲基二氯硅烷在乙醚中的浓度为100-200g/L,所述滴加的速度为1-3mL/min,所述低温搅拌反应的搅拌速度为500-1000r/min,温度为2-6℃。
3.根据权利要求1所述的全遮光窗帘面料的制备方法,其特征在于:所述步骤2中的无水乙醇的喷洒量为1-3mL/cm2,所述均匀涂覆的涂覆量为5-10mL/cm2。
4.根据权利要求1所述的全遮光窗帘面料的制备方法,其特征在于:所述步骤3中的钛酸正丁酯在无水乙醇中的浓度为20-80g/L,甲基纤维素的加入量是钛酸正丁酯质量的10-15%,搅拌均匀的搅拌速度为500-800r/min,所述黑色竹炭纤维的加入量是钛酸正丁酯质量的150-300%。
5.根据权利要求1所述的全遮光窗帘面料的制备方法,其特征在于:所述步骤4中的均匀涂覆的涂覆量是5-10mL/cm2。
6.根据权利要求1所述的全遮光窗帘面料的制备方法,其特征在于:所述步骤4中的色浆层采用发泡色浆涂料纺丝编织而成,所述复合纤维层采用纳米纤维网,且所述纳米纤维网的厚度为0.1-0.9mm。
7.根据权利要求1所述的全遮光窗帘面料的制备方法,其特征在于:所述色浆层的制备方法如下:
步骤A,将聚丙烯酸钠加入至蒸馏水中,加入高取代羟丙基纤维素和水溶性色料低温超声分散30-60min,得到聚丙烯酸钠分散液;
步骤B,将聚丙烯酸钠分散液加入至静电纺丝机中静电纺丝反应,然后编织成单层纤维网;
步骤C,将电气石粉加入球磨机中湿法球磨30-60min,烘干后加入无水乙醇中搅拌均匀,得到浆料;
步骤D,将浆料均匀涂覆在单层纤维网表面,然后覆盖单层纤维网,重复2-3次,得到多层纤维网;
步骤E,将多层纤维网加入至烘箱内恒温反应2-4h,得到色浆层。
8.根据权利要求7所述的全遮光窗帘面料的制备方法,其特征在于:所述步骤A中的聚丙烯酸钠在蒸馏水中的浓度为100-500g/L,所述高取代羟丙基纤维素的加入量是聚丙烯酸钠质量的20-40%,所述水溶性色料的加入量是聚丙烯酸钠质量的2-8%,所述低温超声分散的温度为10-15℃,超声频率为20-40kHz;所述步骤B中的静电纺丝参数为:溶液推进速率为0.7-1.2mL/h,纺丝电压为15-25kV,接收距离为18-25cm,温度为100-120℃;步骤C中的湿法球磨的温度为30-50℃,所述浆料的浓度为100-500g/L;所述步骤D中的涂覆量为2-6g/L;所述步骤E中的恒温反应的温度为80-90℃,压力为0.12-0.15MPa。
9.根据权利要求1所述的全遮光窗帘面料的制备方法,其特征在于:所述步骤5中的梯度恒温加压反应的程序如下:
第一阶段,反应温度80-90℃,时间20-30min,压力0.1-0.2MPa;第二阶段,反应温度110-140℃,时间:剩余时间,压力0.2-0.3Mpa。
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