Synthesis of Castor Oil-based Cationic Waterborne Polyurethane Emulsion and Its Application

Castor oil-based cationic waterborne polyurethane(CWPU)was synthesized by pre-polymer process using castor oil(CO),poly(adipic acid-1,4-succinate diol)(PBA),isophorone diisocyanate(IPDI),and N-methyldiethanolamine(MDEA).The influences of the content of CO and MDEA on comprehensive performance and finished fabric properties of cationic waterborne polyurethane was investigated,especially the antibacterial properties of finished fabric.The CWPU latex particle size and its distribution decrease as the content of CO increased from 0wt%to 16.8wt%,and increases afterwards.The CWPU films show much higher thermal stability than cationic waterborne polyurethane without CO.The surface of fabrics was characterized by scanning electron microscope(SEM).The finished fabric surface is much smoother.In addition,the finished fabric with CWPU emulsion has better antibacterial property against E.coli and S.aureus.When MDEA content is 8%,the antibacterial rates of the two kinds of bacteria are 77.3%and 82.2%,respectively.

Enhanced Water Resistance Performance of Castor Oil—Based Waterborne Polyurethane Modified by Methoxysilane Coupling Agents via Thiol-Ene Photo Click Reaction

Nowadays,waterborne polyurethanes(WPUs)prepared from renewable resources has attracted more and more attention.However,due to its structure,the prepared films easily swells in water and greatly affects the application range of WPUs.Therefore,solving the problem of water resistance is a way to improve the application range of WPUs.In this study,a series of WPU dispersions were prepared using castor oil as the bio-based polyol.Besides,the thiol-ene photo click reaction was carried out on the WPU films for silane modification.The effect of the silane modification on the chemical structures of the WPU dispersions and the properties of the WPU films was investigated and discussed.The results revealed that the WPU dispersions had a smaller particle size and potential,showing excellent stability.In addition,the modified WPU films showed highly water resistance which 72 h water absorption could be reduced to 1.94%and the contact angle was up to 99.34?.Moreover,the modified WPU films also exhibited excellent solvent resistance(in acid and salt solution)and thermal stability.This study can provide a new way to improve the water-resistance,hydrophobicity,and thermal stability of bio-based waterborne polyurethane for potential application in painting,adhesives and inks.

STUDY ON CASTOR OIL POLYURETHANE/POLY (METHYL METHACRYLATE) AB CROSSLINKED POLYMERS

Castor oil polyurethane/poly(methyl methacrylate) AB crosslinked polymers (ABCP) were synthesized by free radical copolymerization of MMA and vinyl-terminated castor oil polyurethane which was obtained from isocyanate-terminated castor oil polyurethane and hydroxyethyl methacrylate The mechanical properties, transition and relaxation, as well as compatibility and morphology of the ABCP were investigated by changing the component. The results show that the ABCP is a semicompatible system and the compatibility of the two components decreases with increasing content of the hard segment. The mechanical and damping properties of the ABCP are obviously superior to that of their homopolymers. The damping value is mainly controlled by cross[ink density of the ABCP but the T-g value by component.

BaTiO_3纳米粉/COPU IPNs复合体系的制备及力学性能研究

采用'同步法'制备了一系列室温固化型蓖麻油聚氨酯/聚甲基丙烯酸甲酯互穿聚合物网络,进而制得其梯次化涂层材料,通过原料分析、TMA的温度—形变检测及TEM对相间形貌和相容性的检测结果表明:所获为两相间相畴尺寸在纳米级范围的互穿聚合物网络体系,且随相间混容程度的增加,体系玻璃化转变温区的有效衔接也有所增强.IPNs及其BaTiO3复合体系的力学性能检测结果表明,随聚甲基丙烯酸甲酸含量的增加,IPNs体现出弹性体向脆性变化的形变规律,在此基础上,选择具有良好压电特性的钛酸钡纳米粉对此网络体系进行复合,确定了复合工艺并对其力学性能进行了检测.复合体系的力学性能随BaTiO3复合量的增加而略有降低.

蓖麻油基COPU／PMMA IPN的合成性能和形态结构的研究

研究了ＩＰＮＣＯＰＵ／ＰＭＭＡ预聚体合成的表观动力学，研究了ＩＰＮＣＯＰＵ／ＰＭＭＡ的物性及力学性，并用透射电镜研究了其形态结构．实验结果表明，此种ＩＰＮ材料具有良好的性能，如力学强度和化学稳定性．

蓖麻油COPU／PMMA互穿网络聚合物粘合剂的研究

合成了一种蓖麻油ＣＯＰＵ／ＰＭＭＡ互穿网络聚合物粘合剂．研究了粘合剂组成对粘接强度的影响．实验表明，此种粘合剂对金属具有较高的粘接强度，具有广阔的应用前景．

木质素改性蓖麻油基水性聚氨酯的制备与性能

以聚四氢呋喃、异佛尔酮二异氰酸酯、蓖麻油为主要原料,热水解木质素为改性剂,2,2-二羟基甲基丙酸为亲水扩链剂,采用预聚体法制备了一系列的木质素改性蓖麻油基水性聚氨酯(LCWPU)。考察了LCWPU胶膜的结构特征、热性能、疏水性以及光泽度。探讨了木质素的含量及n_(NCO)/n_(OH)对LCWPU胶膜热稳定性能、力学性能和耐水性能的影响。结果表明,随着木质素含量的增加以及n_(NCO)/n_(OH)的增加,LCWPU胶膜的吸水率降低,拉伸强度显著提高;当木质素含量为3%,且n_(NCO)/n_(OH)为4.5时,LCWPU胶膜的耐水性及拉伸强度最高,接触角可达95.7°,吸水率为14.3%,拉伸强度为62.9 MPa,断裂伸长率为297.5%。所设计的木质素改性蓖麻油基水性聚氨酯在皮革涂饰剂、哑光木漆等领域具有良好的应用前景。

羧甲基壳聚糖-蓖麻油基聚氨酯农药缓释微球的制备及性能

以羧甲基壳聚糖(CMCS)、蓖麻油(CO)和异佛尔酮二异氰酸酯(IPDI)为原料,通过自乳化法制备了羧甲基壳聚糖-蓖麻油基聚氨酯微球(CO-CMCS-PU),通过分子自组装法负载阿维菌素(AVM)得到载药微球(CO-CMCS-PU@AVM)。采用FTIR、1HNMR、SEM、TGA对产品结构及形貌进行了表征,并探究了不同药量载药微球的包封率、缓释性能、抗紫外性能、叶面接触角和黏附性能。结果表明,相比AVM分散液,紫外光照射后载药微球中AVM的保留率提高到43%以上,说明CO-CMCS-PU载体的抗紫外性能良好;载药微球溶液比AVM分散液在黄瓜叶面上的接触角降低了21%以上,滞留量提高了40%以上,说明其在叶面上有较好的黏附性和润湿性;载药微球包封率可达82%以上,具有良好的缓释和pH响应释放性能,释药行为符合First-order动力学模型和Korsmeyer Peppas模型,药物释放受Fickian扩散控制。

有机硅树脂改性蓖麻油基聚氨酯的制备与性能分析

为提高蓖麻油基聚氨酯(Castor oil-based polyurethane,CO-PU)的耐高温性能,选用五种有机硅树脂对CO-PU进行改性,制备得到有机硅改性蓖麻油基聚氨酯(Silicon-modified castor oil-based polyurethane,Si-CO-PU)并探究不同有机硅树脂种类及质量比对聚合物各种性能的影响。对Si-CO-PU的拉伸性能、水接触角、光泽度、耐液体介质性能等进行测试,并结合傅里叶变换红外光谱仪和同步热分析仪进行表征。研究结果表明,当有机硅树脂质量比为12.5%时,环氧有机硅树脂(SH-023-4)改性CO-PU的综合性能相对较好,耐高温性能达到最佳,这为扩展聚氨酯的应用途径提供了研究思路和方法。

蓖麻油基光敏树脂的合成及其UV-LED固化无影胶的性能

以蓖麻油、异佛尔酮二异氰酸酯、丙烯酸羟乙酯为原料,通过无溶剂法合成的一种蓖麻油基聚氨酯丙烯酸酯(CO-PUA)作为光敏单体。将自制的CO-PUA、活性稀释剂、硅烷偶联剂、附着力促进剂、光引发剂以及四(3-巯基丙酸)季戊四醇酯(PETMP)按比例混合制得一系列UV-LED固化无影胶,并考察了PETMP的添加量对无影胶性能的影响。结果表明:引入PETMP的UV-LED固化无影胶具有巯基-烯“点击化学”的反应特性,消除了氧阻的危害,无影胶固化完全。当PETMP的添加量为0.5 g时,具有最佳黏结性能,以有机玻璃-有机玻璃、有机玻璃-不锈钢、玻璃-不锈钢为搭接基材测得黏结拉伸剪切强度分别为2.44 MPa、5.06 MPa和5.70 MPa。

带双侧烷基蓖麻油聚氨酯的氢键及其耐湿热性能

为了改善生物质蓖麻油基聚氨酯(CO—PU)的韧性和耐湿热性能,通过CO与聚己二酸-2-丁基-2-乙基-1,3丙二醇酯二醇(PBEPG)组成混合软段制备聚氨酯(PU)材料,在PU分子主链上引入对称双疏水烷基。红外光谱(FTIR)分析、动态力学分析(DMA)和热重分析(TG)结果表明,随PBEPG质量分数的提高,PU软硬段间微相分离程度提高,玻璃化转变温度降低,最大热降解温度提高。当CO∶PBEPG(质量比)为70∶30时,PU的断面形貌为韧性断裂,拉伸强度为21.4 MPa,相对湿度100%、100℃环境下老化60 h后拉伸强度保持率为90%,表现出较高的力学强度和耐湿热性能。

蟹壳粉的特殊结构对蓖麻油基复合材料结构与性能的影响

蟹壳是一种常见水产废弃物,具有硬度大、众多官能团等特点,研究发现开发蟹壳作为功能填料制备高分子复合材料前景较好。本工作使用蟹壳粉作为填料,以蓖麻油与二苯基甲烷二氰酸酯合成蓖麻油基聚氨酯预聚体(COPU),制备了复合材料(COS-50),填料添加量达50%。同时使用碳酸钙粉作为填料制备了碳酸钙粉增强蓖麻油基聚氨酯复合材料(COC-50)作为对照组来探究蟹壳粉结构对材料性能的影响。采用红外光谱、SEM、TGA、拉力测试对复合材料的界面结构和各方面性能进行了分析。探究发现,蟹壳独特的甲壳素-蛋白质结构上含有的活性基团与COPU发生化学反应成键,所得材料COS-50力学性能表现出色,抗拉强度达到34.3 MPa,弹性模量为5454.0 MPa,界面相容性良好。

含铝灰聚氨酯导热结构胶的制备与性能

以蓖麻油、IPDI、聚天门冬氨酸酯树脂以及聚四氢呋喃二醇为主要原料,制备了双组份无溶剂聚氨酯胶粘剂。以铝灰作为填料加入聚氨酯胶粘剂中,实现了铝灰的资源化回收利用。对产物进行红外表征,证明了蓖麻油成功引入聚氨酯长链上。研究结果表明:随着铝灰含量的增加,导热系数逐渐提高;拉伸强度整体呈现先下降再上升的趋势;当铝灰填料添加量在50%时,钢材剪切强度为6.43 MPa,拉伸强度为7.71 MPa,断裂伸长率为27.2%,导热系数可达到0.41W/(m·K),为空白对照组的228%。

Rational design of sustainable polyurethanes from castor oil: towards simultaneous reinforcement and toughening

Sustainable polyurethanes prepared from castor oil and diisocyanates show very low strength and toughness, due to the highly cross-linked and flexible structure. Herein, we report a new strategy to simultaneously reinforce and toughen castor oil-based polyurethane via incorporating a stiff component （isosorbide, IS） to enhance network stiffness and reduce crosslink density. The crosslinking degree de- creases while the strength, moduli, ductility and heat re- sistance significantly increase accordingly with increasing IS content. The tensile behaviors are tunable over a broad range （either as elastomers or as plastics） depending on the com- positions. The polyurethanes show excellent thermal stability with onset decomposition temperature higher than 280℃. The investigation provides a new hint for future design and fab- rication of high performance sustainable polymers from other vegetable oils.

蓖麻油基聚氨酯材料研究进展

介绍了蓖麻油的结构特点和化学改性方法,对近年来蓖麻油基聚氨酯材料在涂料、发泡材料、复合材料等应用领域的研究进展进行了综述。简要分析了蓖麻油在应用中存在的问题,并对蓖麻油基聚氨酯材料未来的发展方向进行了展望。

蓖麻油基下游产物及蓖麻油增塑剂的研究及其应用进展

随着全球化石资源消耗量的不断剧增,能源危机问题引起了广泛的关注。在植物资源能源化的利用中,以蓖麻油为原料开发高附加值下游产品已成为研究热点。本文介绍了国内外蓖麻油基下游产品的制备方法、产品性能及应用领域等方面。回顾了脱水蓖麻油、酯交换蓖麻油、环氧化蓖麻油、蓖麻油基聚氨酯等下游产物的制备与应用性能研究。简述了蓖麻油基增塑剂的种类及应用领域,具体分析了环氧乙酰蓖麻油酸甲酯的制备方法及产品特性。提出了在我国蓖麻油基增塑剂的生产过程中反应温度、催化剂用量等因素影响环氧基团稳定性的问题,指出目前我国催化合成蓖麻油基增塑剂的趋势和发展方向。

纳米SiO_2改性醇溶性蓖麻油-聚氨酯树脂的制备与表征

利用端氨基偶联剂KH-550对纳米SiO2进行表面改性,在超声场作用下制备疏水性纳米SiO2粒子,并将其均匀分散到蓖麻油(CO)-聚氨酯溶液,通过红外光谱(IR)、热重分析(TGA)和扫描电镜(SEM)等测试方法,探讨醇溶性聚氨酯的热稳定性、铅笔硬度和胶膜力学性能等。红外分析表明,PU大分子和纳米SiO2之间形成化学键,形成了Si—O—Si结构。当蓖麻油添加量为多元醇总质量的10%时,拉伸强度由原来的6.8 MPa增加到16.2 MPa,吸水率降低至原来的1/2。纳米SiO2颗粒掺杂量由0%增加到2%时,PU涂膜的失重速率最高点温度由原来的345℃提高至369℃,热分解温度也有所提高。涂膜热重曲线出现右移。

蓖麻油基阻燃多元醇的合成及在聚氨酯泡沫中的应用

以蓖麻油为原料,经过甘油醇解反应、双氧水环氧化反应、磷酸二乙酯与环氧基团开环反应生成蓖麻油基阻燃多元醇,然后与多聚异氰酸酯(MDI)形成聚氨酯泡沫。蓖麻油基阻燃多元醇的结构采用FT-IR、1H NMR进行表征,聚氨酯泡沫的力学性能和阻燃性能采用万能试验机、极限氧指数仪和热重分析仪进行测量。结果表明:通过一系列的反应生成了蓖麻油基阻燃多元醇,在不采用任何阻燃剂的情况下,虽然蓖麻油基阻燃多元醇的P元素仅有1%,但是聚氨酯泡沫的氧指数与醇解蓖麻油制备的聚氨酯泡沫相比从20.1%提高到23.8%,说明蓖麻油基阻燃多元醇制备的聚氨酯泡沫具有很好的阻燃性能;制备的蓖麻油基阻燃多元醇的羟值与醇解蓖麻油相比,由408 mg/g提高到了420 mg/g;随着蓖麻油基阻燃多元醇含量的提高,聚氨酯泡沫的压缩强度从0.118提高到0.128 MPa,热稳定性也有所增强。

网间交联型增韧环氧树脂/蓖麻油聚氨酯互穿网络聚合物的动态力学性能和形态结构

以增韧环氧树脂(TEP)和蓖麻油聚氨酯[PU(CO)]形成的互穿网络聚合物(IPN),两网络间具有一定数量的交联点,在一定组成下,该IPN的tanδ-T曲线半峰宽达100℃,tanδ最大值接近1,阻尼性能良好。形态研究表明,该IPN既有增韧环氧树脂本身的两相结构,又有IPN的两相结构。

含蓖麻油的水性聚氨酯乳液的稳定性和膜的耐水性研究

以蓖麻油与聚醚(N210,Mn=1000)、甲苯二异氰酸酯(TDI)为主要原料,以二乙烯三胺(DET)、环氧氯丙烷(ECP)、马来酸酐(MAH)等为亲水单体,通过丙酮法制得了稳定的含蓖麻油的水性聚氨酯.研究了亲水单体含量对水性聚氨酯的粘度、稳定性、乳液成膜的干燥时间以及漆膜的耐水性的影响.结果表明,当亲水单体含量为12%～24%时,可以显著地提高聚氨酯漆膜的耐水性.