Preparation and Swelling Kinetic Analysis of Poly (HPMC-co-AA-co-AM) Super Absorbent Resin

Super absorbent resin(SAR)is prepared by aqueous high temperature polymerization using hydroxypropyl methylcellulose(HPMC)as monomer backbone material,acrylic acid(AA)and acrylamide(AM)as the graft copolymer monomer,potassium persulfate(KPS)as the initiator to generate free radicals,and N,N`-methylenebisacrylamide(MBA)as cross-linking agent for cross-linking reaction.Simutaneously,the influence of individual factors on the water absorption is investigated,and these factors are mainly AA,AM,KPS,MBA,HPMC,and reaction temperature.The optimized conditions are obtained by the experiment repeating for several times.The water absorption multiplicity and salt absorption multiplicity under the conditions are 782.4 and 132.5 g/g,respectivity.Furthermore,the effects of different temperatures and salt concentrations on its water absorption,as well as the swelling kinetics of SAR are studied.It is indicated the water-absorbing swelling process is mainly caused by the difference in water osmotic pressure and Na+concentration inside and outside the cross-linked molecular structure of the resin,which is not only consistent with the quasi-secondary kinetic model,but also with the Fick diffusion model.

Preparation and Characterization of Super Absorbent Resin from Natural Cellulose

The grafting polyacrylamide onto wood pulp cellulose (cell g PAM) was performed with cerous ammonium nitrate as the initiator and hydrolyzed to produce the super absorbent resin. The FTIR shows that the polyacrylamide is grafted on the cellulose. After hydrolyzation, part of acrylamino groups are transformed into carboxyl groups. The XRD analysis shows that the graft polymerization occurred at the amorphous section and the surface of the crystal section of cellulose. The SEM graph reveals that there is a layer of polymer on the surface of cellulose fiber and the fibril structure of the cellulose surface is covered. After hydrolyzation, the surface of the product is different from that of cell g PAM's and the surface is scraggy. The technical conditions to prepare high water absorbent resin were confirmed. Through the radical graft copolymerization, the high water absorbent resin can be produced from wood pulp cellulose.

A New CMC-AA Resin/Inorganic-gel Super Absorbent Material

A super absorbent material was prepared with the super absorbent resin （ SAR ） and inorganic gel. The SAR of the carboxymethyl cellulose grafting acrylic acid （ CMC-AA ） was copolymer synthesized using the method of inverse-phase suspension polymerization. The influences of the monomer concentration, neutralization degree, the initiator, dispersion agent, cross-linking agent, reaction and drying temperature on the grafting copolymer properties were examined. Meanwhlie, its properties was investigated and the model for absorption mechanism of this absorbent composite was proposed.

Preparation of Liquor Flavoring from Yellow Water Based on Water Absorbent Resin

[Objective] This study was conducted to extract the scarce natural liquor flavorings desired by many liquor factories from yellow water. [Method] Strong water absorbent resin was used to absorb moisture from the yellow water in order to concentrate it into dense yellow water at first, followed by azcotropic dis- tillation of the previously concentrated yellow water, and then, catalytic esterification was performed to the remaining liquid after the distillation. [ Results] The 7. 066 7 fractions of concentrated yellow water with 56.7% ethanol could be obtained after the treatment of 100 fractions of yellow water with strong water absorbent resin. Azeotrope of 0.432 8 fraction of natural acetaldehyde, 0. 269 4 fraction of ethyl formate and methyl alcohol, 0. 975 0 fraction of ethyl acetate and methyl alco- hol could be obtained after the azeotropic distillation per 100 fractions of concentrated yellow water. After the addition of CaC12, O. 220 7 fraction of ethyl formate and 0. 514 2 fraction of ethyl acetate could be obtained after distillation of the azeotrope. Finally, 92. 094 8 fractions of esterification liquid with 38 kinds of flavor- ing compound could be obtained after catalytic esterification of 100 fractions of concentrated yellow water, and the content of ethyl acetate, ethyl propionate, ethyl- butyrate, ethyl valerate, ethyl lactate and ethyl bexanoate were as much as 142.9, 22.2, 54.2, 3.3,75.4 and 158.9 g/L, respectively. [ Conclusion] Top-grade Luzhou-flavor liquor could be made by mixing 6.5 fractions of common liquor with acetaldehyde, ethyl formate, ethyl acetate and esterification liquid which were ob- tained from 1 fraction of yellow water. Therefore, the yellow water has a great recycling value, and it tells us that the technique of extracting liquor flavorings from yellow water has tremendous market value.

Absorption Capability Comparison of Two Kinds of Super Absorbent Resins from Carboxymethyl Cellulose

The two kinds of super absorbent resins from carboxymethyl cellulose were synthesized with the potassium persulphate and methylenebisacrylamide as initiator and cross linker respectively by radical polymerization in aqueous solution. Thestructures of the two resins were characterized with Fourier transform infrared spectroscopy FTIR, scanning electron miscroscopy （SEM）, and environment scanning electron miscroscopy （ESEM）, the results indicate that the fibriform of the carboxymethyl cellulose （CMC） is disappeared and the crusslink networks in eopolymer of carboxymethyl cellulose-graft-polyacrylic acid（CMC-g-PAA） are denser than that of eopolymer of carboxymethyl cellulose-graft-poly （acrylic acid-co-N-vinyl Pyrrolidone） （CMC-g- PAA-co-PVP）. The comparison between the two resins in absorption capacities is that CMC-g-PAA is better in the water-keep capability being heated, while CMC-g-PAA-co-PVP is better in the water absorbency and salt resistance.

Adsorption and desorption behavior of silver ions onto valonia tannin resin

Valonia tannin （VT） was gelated through polymerization with formaldehyde to prepare an adsorbent, which was found effective to remove Ag＋ from aqueous solution. The adsorption-desorption behaviors of valonia tannin resin （VTR） were investigated under various initial Ag＋ concentrations, solution temperatures, pH values etc. The applicability of empirical kinetic models was also studied. The pseudo-second-order model studies revealed the Ag＋ sorption was very rapid. VT and VTR were characterized using FTIR and SEM before and after adsorption. The Ag＋ biosorption on VTR increased with a rise in initial concentration of Ag＋ and with a decrease in temperature. Desorption experiments were conducted at low pH values and the solutions of H2SO4, HNO3 and HCl were used for desorption. The VTR shows high adsorption capacity to Ag＋ in a wide pH range of 2.0-7.0, and a maximum adsorption capacity of 97.08 mg/g was obtained at pH 5.0 and 296 K when the initial concentration of Ag＋ was 100.0 mg/L. Ag＋ ion desorption could reach 99.6% using 1 mol/L HCl＋1% thiourea （NH2CSNH2） solution. By utilizing such characteristics of VTR, it is expected that it can be applied to recovering Ag＋ efficiently and simply with low cost.

甘蔗渣/膨润土基复合高吸水性树脂性能及应用研究

采用微波法,以蔗渣和膨润土为基质,与丙烯酸(AA)和丙烯酰胺(AM)共聚合成甘蔗渣/膨润土复合高吸水性树脂(B/BCSAR)。选取辐射时间、膨润土用量、AM/AA(质量比)及中和度四个因素,利用正交试验得到树脂的最佳制备条件,即AM/AA=0.5,中和度为60%,膨润土用量为6%,辐射时间为3min时,产品的吸水倍数和吸盐水倍数最大,分别为402.65g/g和86.14g/g。通过对B/BCSAR性能研究,结果表明,B/BCSAR吸附速率先快后慢,8h时吸水倍数最大,达到吸附平衡,且保水能力良好,有一定的机械强度,耐热耐寒及耐光照性能良好。B/BCSAR应用实验结果表明,作为土壤掺杂剂,当B/BCSAR的掺杂量为4g时,应用效果最好,发芽率达到80%,平均茎长为6.13cm;作为种子包衣剂,当包衣比为1∶30时,应用效果最好,发芽率为100%,平均茎长为7.58cm。二者相比,后者对植物发芽及前期生长更有利。

以羧甲基甘蔗渣为原料合成系列高吸水树脂的研究

以甘蔗纤维素为主要原料,通过醚化反应合成羧甲基甘蔗渣,再以羧甲基甘蔗渣为母体,丙烯酸及其盐、丙烯酰胺为单体,N,N"-亚甲基双丙烯酰胺为交联剂,过硫酸钾为引发剂,进行聚合反应合成了四种高吸水树脂。利用红外光谱、元素分析、扫描电镜、XRD等手段对合成的树脂进行了表征。通过正交实验对高吸水树脂的合成条件进行了优化。在最佳合成条件下合成的普通高吸水树脂的吸去离子水量为2040g/g,含钾高吸水树脂的吸去离子水量为1950g·g^(-1),含氮高吸水树脂的吸去离子水量为2150g·g^(-1),含氮和钾高吸水树脂的吸去离子水量为1360g°g^(-1)。

环氧树脂填充复合蜂窝夹芯结构吸波性能的试验及模拟研究

设计了一种由四氧化三铁@还原氧化石墨烯(Fe_(3)O_(4)@rGO)气凝胶/环氧树脂填充的复合蜂窝夹芯结构(CHSS)。采用拉曼光谱仪、X射线光电子能谱等方法对Fe_(3)O_(4)@rGO粒子进行表征,并对其电磁参数和吸波性能进行分析。研究结果表明:成功制备了Fe_(3)O_(4)@rGO,并且Fe_(3)O_(4)在气凝胶中分散良好;Fe_(3)O_(4)@rGO对电磁波的导电损耗以及磁损耗为材料提供了良好的微波吸收性能,CHSS的有效吸波带宽随着Fe_(3)O_(4)@rGO气凝胶/环氧树脂层厚度增大呈先增大再减小的趋势;当CHSS中Fe_(3)O_(4)@rGO气凝胶/环氧树脂层厚度为2.5 mm时有效吸波带宽达到最大值,性能最佳的CHSS厚度为7.8 mm,有效吸波带宽达到7.09 GHz,最大反射损耗(RL)值达到-17.76 dB。综合表明,本研究制备了一种复合蜂窝夹芯材料,并且使用环氧树脂回填封装芳纶蜂窝可以达到理想的吸波性能。

地铁堵漏用吸水树脂复配研究

在调研地铁渗漏现状、治理方法及堵漏材料的基础上,开展了堵漏用吸水树脂复配实验研究,提出了一种基于吸水树脂的深、中、浅复合止水方法,为地铁堵漏提供了新思路。将吸水树脂与常用堵漏材料丙烯酸盐复配,测试凝胶时间、微观结构和干湿循环条件下的稳定性。结果表明:添加吸水树脂可以大幅缩短丙烯酸盐的凝胶时间,显著提高堵漏效果;吸收树脂的目数越大(即颗粒越小),凝胶时间越短,且吸水树脂颗粒能更好地被丙烯酸盐凝胶体包裹,复合凝胶材料无微细裂纹,进一步增强了阻水性能。同时,提出吸水树脂用于地铁堵漏的双通道灌浆泵施工工艺,一个通道以液体形式输送丙烯酸盐,另一个通道以压缩空气为介质输送吸水树脂,在双通道末端混合进入裂缝,以此将复配凝胶材料用于动水条件下深层裂缝的渗漏水治理。

聚丙烯酰胺树脂的反相悬浮聚合制备及吸水性能研究

以丙烯酰胺为单体、过硫酸铵为引发剂、单硬脂酸甘油酯为分散剂、N,N-亚甲基双丙烯酰胺为交联剂,采用反相悬浮聚合法制备了聚丙烯酰胺吸水树脂。考察了分散剂、交联剂、引发剂、单体浓度、油水比、反应温度、反应时间等因素对吸水倍率和产率的影响。结果表明,单硬脂酸甘油酯用量为3%、N,N-亚甲基双丙烯酰胺为0.12%、过硫酸铵为0.5%、单体浓度为30%、油水比范围为4:1~6:1、反应温度在70~75℃、反应时间为4 h时,聚丙烯酰胺树脂的吸水倍率和产率较高。利用傅里叶变换红外光谱仪、热重分析仪和凝胶渗透色谱仪对产物进行了测试表征。

AM-AMPS共聚吸水树脂的制备与性能研究

用丙烯酰胺(AM)和2-丙烯酰胺基-2-甲基丙磺酸(AMPS)两种单体采用溶液共聚方法,用过硫酸铵和亚硫酸氢钠作引发剂,N,N-亚甲基双丙烯酰胺作交联剂,制备了AM-AMPS共聚物吸水树脂。考察了AM/AMPS比例、引发剂用量、交联剂、pH、反应温度、反应时间等工艺条件对吸水倍率的影响。结果表明,AM/AMPS质量比为1/2~1/1,引发剂用量为0.3%,交联剂为0.06%~0.1%,pH值为7,反应温度在35~40℃,反应时间在2~4h时,制备的树脂有良好的吸水性。采用傅里叶变换红外光谱仪、热重分析仪和凝胶渗透色谱仪对产物进行了测试表征。

糠醛交联黑茶茶色素树脂的制备及其吸水性能研究

高吸水树脂在农业、医疗等方面有着广泛的应用。本文以丙烯酸和茶色素为原料,过硫酸钾(KPS)为引发剂,糠醛为交联剂,水溶液聚合法合成高吸水树脂,并通过单因素实验和正交实验确定树脂的最佳制备条件,以此来研究温度、p H值、吸水时间等外界因素对树脂吸水性能的影响。实验结果表明:当丙烯酸质量为2 g,中和度为90%,茶色素用量为0.0030 g,引发剂用量0.0050 g,糠醛用量0.0008 m L时,制备的糠醛交联黑茶茶色素树脂吸水倍率最高,可达到1187.9 g·g^(-1),且其在中性环境中吸水16 h能达到最高吸水倍率。

抗菌型高吸水树脂的制备

本文以壳聚糖、丙烯酸为主要原料,先在壳聚糖分子上引入季铵盐侧链,再与丙烯酸钠采用反相悬浮聚合法合成抗菌型高吸水性树脂。并探索了原料的最佳配比,并对吸水性、保水性、抗菌性的影响条件进行了讨论。

紫外光引发制备PAA/CMC高吸水树脂及性能研究

以羧甲基纤维素钠(CMC)为骨架,通过紫外光引发聚合将单体丙烯酸(AA)接枝到CMC骨架上,合成PAA/CMC高吸水树脂。采用单因素实验法优化并确定了具有最高吸水能力的树脂的最佳制备条件。结果表明,合成树脂的最优条件为:CMC用量为0.05 g,AA质量浓度为0.48 g/mL,中和度为40%,引发剂和交联剂的用量分别为AA质量的0.3%和0.05%,反应时间55 min。所制备的高吸水树脂在蒸馏水中的最大吸水倍率为1281.21 g/g,在生理盐水中的最大吸水倍率为69.42 g/g。采用红外、热重以及扫描电镜对树脂的结构进行表征。结果表明,该制备方法成功合成了PAA/CMC高吸水树脂,其具有较好的热稳定性,树脂表面有明显的褶皱结构,具有吸水速率快、保水性好等特点。

吸波预浸料树脂及其复合材料的综合性能研究

将羰基铁粉(CIP)和乙炔炭黑(CB)作为吸波剂引入到中温固化预浸料树脂体系中,通过测试吸波预浸料树脂的流变性能、凝胶时间、固化特征温度、热失重性能等确定吸波剂的加入对预浸料树脂性能的影响。结果表明,CIP和CB吸波粒子的加入对预浸料树脂的凝胶时间、固化特征温度的影响较小,对预浸料树脂的流变特性影响较大。为满足工艺性能要求,CIP吸波粒子的加入量与树脂的质量比宜控制为0~2.5,CB吸波粒子的加入量与树脂的质量比宜控制为0~0.03。相比于单层结构吸波复合材料,双层结构吸波复合材料的吸波性能更为优异,综合考虑其成型工艺性能和吸波性能等,以C3C为透波层、Fe250C为损耗层的材料组合综合性能最佳,其最大有效吸波带宽为3.85 GHz,对应的透波层和损耗层厚度分别为0.9 mm和1.5 mm,最小电磁波的反射损耗RL值为-35.46 dB,对应的透波层和损耗层厚度分别为0.5 mm和1.4 mm。

树脂基高吸油材料的研究进展

从树脂基材料吸油机理着手,介绍了树脂基泡沫和丙烯酸树脂等吸油材料近几年的国内外研究动态。最后,总结了研究中存在的问题,并展望了吸油材料未来的发展走向。

改性方法对玉米秸秆纤维素-腐植酸基吸水树脂性能的影响

分别采用等离子体和紫外固化法对玉米秸秆纤维素-腐植酸基吸水树脂(CS-HA-PAA)进行改性,通过傅里叶变换红外光谱仪和扫描电子显微镜对改性吸水树脂的结构和形貌进行表征,考察了改性吸水树脂的耐盐性、耐酸碱性、保水性、反复吸液性等性能。结果表明:改性后CS-HA-PAA亲水基团增多,表面粗糙且产生孔洞结构,有利于提高吸水性能;采用最佳工艺条件制备的等离子体改性CS-HA-PAA和紫外固化改性CS-HA-PAA的吸水率分别可达1053.2g/g、869.44g/g,NaCl质量浓度为9g/L时最高吸盐水率分别为181.03g/g、151.49g/g,等离子体改性CS-HA-PAA的吸水、耐盐性能优于紫外固化法改性CS-HA-PAA。

耐温磁性吸波涂层的界面活化-接枝及其性能增强

目的采用过氧化氢(H_(2)O_(2))溶液和乙烯基三甲氧基硅烷(A171)对片状磁性金属吸波剂粒子进行活化和小分子接枝,改性后的吸波剂与有机硅树脂复合,在吸波剂-基体界面形成化学键结合,探究具有高填充、高附着力和高磁导率的耐温吸波涂层。方法通过改变温度和反应时间,探究H_(2)O_(2)溶液活化吸波剂的最佳条件,利用A171的乙烯基与有机硅树脂发生硅氢加成反应,在吸波剂与基体间形成化学键连接。结果吸波剂粒子在未处理和H_(2)O_(2)活化后,分别经质量分数3%、7%的A171接枝改性,获得了最佳润湿性,表明表面活化可有效增强接枝效果。随着A171接枝量的增加,涂层的密度增加,附着力提高,磁导率上升。当A171的接枝量(用质量分数表示)为7%时,涂层密度由(2.05±0.04)g/cm^(3)提高到(2.27±0.03)g/cm^(3);附着力由(5.63±0.11)MPa提高到(8.59±0.13)MPa,提高了52.6%。1 mm涂层的反射率峰值由起始的-5.01 dB升至-6.12 dB。在300℃下热处理20 h后,1 mm涂层的反射率依然为-5.98 dB,保持了良好的耐温性。结论采用H_(2)O_(2)溶液对片状吸波剂进行活化处理,能够增加吸波剂表面A171的接枝含量,可显著提高吸波剂在有机硅树脂基体的填充能力,提高了耐温吸波涂层的附着力、磁导率和吸波性能。

高吸水树脂对混凝土的影响及其调控试验

为了研究高吸水树脂对混凝土强度和工作性能的影响,设计4组试验,并分析每组的强度特征和工作性能。结果表明:掺加高吸水树脂的混凝土强度下降了10%~20%;新拌混凝土的坍落度和扩展度随着时间增长而减小,且减小速度较快,30min坍落度损失达19.1%,60min坍落度和扩展度损失约47.6%;高吸水树脂的较优掺量为0.3%;微珠能减小混凝土因掺入高吸水树脂而引起的强度和工作性能的损失,在工程上可以与高吸水树脂复掺使用。文中所得研究成果可为实际工程提供一定的参考依据。