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木质素磺酸钠接枝共聚物的制备与抑尘性能研究
Preparation of Lignosulfonate Sodium and Sodium Acrylate Graft Copolymer and Its Dust Suppressant Performance
收稿日期:  
DOI:10.11980/j.issn.0254-508X.2019.06.007
关键词:  木质素磺酸钠  接枝共聚  丙烯酸钠  抗风蚀性能  抑尘性能
Key Words:lignosulfonate sodium  graft copolymer  sodium acrylate  anti-wind erosin performance  dust suppression performance
基金项目:国家自然科学基金(31700515);天津市级大学生创新创业训练计划项目(201810057157)。
作者单位
张佳音1 1. 天津科技大学天津市制浆造纸重点实验室天津300457 
王冠华1,* 1. 天津科技大学天津市制浆造纸重点实验室天津300457 
杭家慧1 1. 天津科技大学天津市制浆造纸重点实验室天津300457 
徐 力1 1. 天津科技大学天津市制浆造纸重点实验室天津300457 
靳梦晨1 1. 天津科技大学天津市制浆造纸重点实验室天津300457 
马彦明2 2. 唐山市若水生态治污科技有限公司河北唐山063000 
司传领1 1. 天津科技大学天津市制浆造纸重点实验室天津300457 
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全文下载次数: 2018
摘要:采用正交实验法优化木质素磺酸钠(Ls-Na)接枝丙烯酸钠(SAA)抑尘剂的制备工艺,利用傅里叶变换红外光谱仪、扫描电子显微镜和热重分析仪对接枝共聚物(Ls-Na-SAA)进行表征,并考察了木质素磺酸钠接枝前后作为抑尘剂的性能差异。结果表明,木质素磺酸钠与丙烯酸钠成功接枝,接枝后共聚物热稳定性提高。木质素磺酸钠接枝的最优条件为:反应温度65℃、反应时间3 h、中和度60%、引发剂过硫酸钾质量分数10%。与Ls-Na相比,Ls-Na-SAA的保水性基本不变;喷洒质量分数2.5%Ls-Na-SAA时,沙样的抗压能力由37.0 kPa提高到455.6 kPa,喷洒质量分数1.5%Ls-Na-SAA时,沙样的质量损失率由25.2%降低到3.1%。接枝共聚后Ls-Na-SAA形成网状交联结构,在沙粒之间形成更多的黏结物,进而提高其抗压性及抗风蚀性能。
Abstract:An orthogonal design was applied to optimize lignosulfonate sodium(Ls-Na) grafting copolymerization with sodium acrylate(SAA). The lignosulfonate graft copolymer(Ls-Na-SAA) was characterized by FT-IR, SEM and TGA. The results showed that sodium acrylate was grafted onto the lignosulfonate sodium successfully and the graft copolymer exhibited enhanced thermal stability. Under the optimized grafting conditions(temperature 65℃, reaction time 3 h, neutralization degree 60% and initiator concentration 10%), the performances of Ls-Na and Ls-Na-SAA as dust suppressants were analyzed and compared. The results indicated that the water retention capacity of Ls-Na-SAA was basically unchanged after the grafting, its compression strength increased from 37.0 kPa to 455.6 kPa when the mass fraction of spraying was 2.5% and the sand loss rate decreased from 25.2% to 3.1% when the mass fraction of spraying was 1.5%. After grafting copolymerization, Ls-Na-SAA formed a reticular cross linking structure and more binding layers among the sand particles. These features contributed to the improved compressive strength and anti-wind erosion performance of Ls-Na-SAA.
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