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.

Preparation and Application of Anionic and Cationic Waterborne Polyurethanes and Graphene-Cellulose Nanocrystal as an Antistatic Agent for Cashmere

The main purpose of this research work is to improve anti-static properties of Cashmere fabric by introducing application comprising anti-static agent by foaming which was made with cationic waterborne polyurethane and graphene-CNC. Cashmere fabric was cut into 10 pieces of sample cloth of 5 cm * 5 cm size, washed with acetone solution, and then dried in an oven at 60℃. Three forms of waterborne polyurethanes such as two forms of Cationic waterborne polyurethane (CWPU) and a form of Anionic waterborne polyurethane (AWPU) were synthesized. Cellulose nanocrystalline (CNC)/graphite powder solution with the ratio of 0.5/1, 1/1, 2/1 was prepared by ultrasonic probe stripping method, and the concentration of graphite powder was ensured to be 1 mg/ml. The fabric was treated with anionic and cationic WPUs foaming solution until the weight gain reached 2.5 - 3.5 wt%. After drying, the elastic cloth was foamed with graphene solution until the graphite content of the cloth was close to 10%, 20%, 40%, 60% respectively, and then dried for reserving. Characterization properties of pure graphite powder, pure CNC and graphene solution with different proportions of three components were tested by Fourier transform infrared spectrometer (FTIR), X-ray diffraction (XRD), Thermalgravitimetric analysis (TGA) and scanning electron microscopy (SEM). Take the original cloth, only WPU treated cloth and four clothes with different graphite content for the fabric performance test.

Application of Cationic Waterborne Polyurethane as Impregnation Material for Microfiber Synthetic Leather Base

A cationic waterborne polyurethane(CWPU) was synthesized and utilized as impregnation material for manufacturing microfiber synthetic leather base,in an attempt to decrease environmental pollution associated with organic solvents and improve simulation degree relative to genuine leather.The alkali resistance of the CWPU and four manufacture methods were investigated.Meanwhile,the dyeing properties of the microfiber synthetic leather base were studied.It was found that the CWPU displayed enough alkali resistance to endure the alkali deweighting process for microfiber synthetic leather base manufacture.In terms of bending length,bending rigidity,compression elasticity ratio and specific compression elasticity ratio of the resulting base,coagulating the impregnated CWPU with sodium hydroxide before steam treatment was the optimal method.The extent of fiber splitting and the handle of the base from this method were both similar to conventional base filled with solvent-based polyurethane(SPU).The dyeing properties of the microfiber synthetic leather base filled with CWPU were also found superior to the one filled with either anionic waterborne polyurethane(AWPU) or SPU.

Cationic CO_(2)-based Waterborne Polyurethane with High Solid Content and Excellent Ageing Resistance

High solid content CO_(2)-based cationic waterborne polyurethanes(CWPUs)were prepared using CO_(2)-polyols as soft segment and Nmethyl diethanolamine(MDEA)as hydrophilic group.The resulting stable aqueous dispersion displayed a high solid content of 52%with a low MDEA loading of 3.52 wt%.This novel structural CWPU can provide excellent adhesive strength,whose T-peel strength could reach 173.48N/5cm,20%higher than that of ester-based cationic waterborne polyurethane(87.55 N/5cm).The CO_(2)-based CWPU film showed only 2 wt%swelling percentage after 240 min immersion in water,and no change was observed during its immersion in 5 wt%sodium hydroxide solution.The tensile strength of CO_(2)-WPUs dropped slowly to 91.2%after 480 min immersion in a 5 wt%sodium hydroxide solution,whereas that of esterbased CWPUs dropped quickly to 32%after 240 min and their mechanical properties were lost after 360 min immersion.Meanwhile,the retention of the tensile strength of the CO_(2)-CWPUs was 81.5%even after 720 min immersion in 10 wt%H_(2)O_(2) solution,while it was only ca.38%for the ester-based CWPUs.These results indicated that the cationic CO_(2)-based CWPU may be promising waterborne adhesive with outstanding ageing resistance due to its synergistic effect from carbonate and ether groups of CO_(2)-polyol structure.

疏水型阳离子水性聚氨酯的合成与性能研究

以甲苯二异氰酸酯,聚酯、聚醚混合多元醇为基本原料,N-甲基二乙醇胺(MDEA)为亲水扩链剂,羟丙基聚二甲基硅氧烷、单硬酯酸甘油酯为改性剂,通过醋酸中和反应制备出疏水型自乳化阳离子水性聚氨酯乳液;研究了改性剂用量、R值(体系中—NCO和—OH的物质的量比)、MDEA含量和中和度对乳液耐水性的影响。结果表明:羟丙基聚二甲基硅氧烷和单硬酯酸甘油酯加入到聚氨酯体系中,均能显著提高聚氨酯的耐水性;胶膜吸水率随MDEA含量增加呈先降低后升高的趋势;当中和度小于100%时,胶膜吸水率随中和度的增大而减小;当中和度大于100%时,中和度对胶膜吸水率无明显影响。

阳离子水性聚氨酯的合成研究

采用甲苯二异氰酸酯 (TDI)与聚酯二醇、亲水扩链剂和其它多元醇反应合成阳离子水性聚氨酯乳液 ,讨论了扩链剂的种类、加料方式、添加量及中和度等对聚氨酯乳液及其涂膜性能的影响。研究发现 ,采用N -甲基二乙醇胺为亲水扩链剂 ,用饥饿加料的方式 ,在中和度为 90 %～ 10 0 %时合成的阳离子水性聚氨酯乳液具有良好的贮存稳定性 。

蓖麻油改性阳离子型水性聚氨酯的合成及性能

采用蓖麻油、异佛尔酮二异氰酸酯、聚己二酸乙二醇酯、聚丙二醇、一缩二乙二醇、N-甲基二乙醇胺、三羟甲基丙烷,合成了一系列蓖麻油改性阳离子型水性聚氨酯分散液。用红外光谱分析、粒径测试、智能电子拉力试验、摆杆硬度测试、热分析等对所合成的聚氨酯的结构、乳液的粒径和膜性能进行测试。结果表明:随着蓖麻油用量的增加,阳离子型水性聚氨酯乳液的粒径逐渐增加,膜的摆杆硬度及耐水性能逐渐增强:蓖麻油在树脂中质量分数达8.4%时,膜的摆杆硬度达到0.86;而蓖麻油在树脂中质量分数达6.4%时,阳离子型水性聚氨酯胶膜浸泡24 h的吸水率几近为零;且蓖麻油的引入,使胶膜的耐热性也有所提高。

硅烷改性水性聚氨酯表面施胶剂的制备与性能研究

以甲苯二异氰酸酯、混合多元醇为基本原料,N-甲基二乙醇胺为亲水扩链剂,有机硅为改性剂,通过醋酸中和反应制备出一种可用于纸张表面施胶的自乳化阳离子水性聚氨酯乳液;研究了硅烷用量、预聚温度、R值(体系中异氰酸酯基和羧基的摩尔比)、聚酯\聚醚质量比对乳液性能和施胶效果的影响。结果表明:硅烷用量为4.5%,预聚温度为60℃,R值为1.10,聚酯\聚醚质量比为3.6时制备的乳液性能良好;FT-IR分析表明有机硅烷已通过化学方法结合到聚氨酯分子链中;TGA分析表明有机硅的加入对水性聚氨酯耐热性有明显提高;粒径分析表明,有机硅的加入能使乳液粒子分布更均匀且粒径更小;施胶效果表明水性聚氨酯对改善纸张强度作用明显,有机硅烷的加入能显著提高纸张的施胶度。

用以合成高剥离型天然橡胶复合材料有机蒙脱土的制备及应用

合成出一种端羟基阳离子水性聚氨酯树脂,采用超声波助混技术将其插层到蒙脱土中,通过阳离子交换制备出含有端羟基高剥离度的有机蒙脱土(HOMMT),并将HOMMT应用到天然橡胶(NR)复合材料中,研究其对天然橡胶复合材料力学性能的影响。采用傅里叶变换红外光谱(FT-IR)、广角X射线衍射(XRD)、热失重分析(TGA)、透射电镜等检测手段分别对HOMMT结构性能进行分析表征,并用材料拉伸机、阿克隆磨耗机测试HOMMT/天然橡胶复合材料的力学性能。XRD结果表明,改性后的蒙脱土层间距由原来的1.21 nm增加到6.29 nm。FT-IR和TGA表明端羟基阳离子水性聚氨酯树脂大分子链插层于蒙脱土层间。加入剥离型有机蒙脱土后,由于层状硅酸盐纳米粒子的存在,NR复合材料的力学性能得到提高,耐磨性提高约14%。

阳离子水性聚氨酯乳液的合成及性能

以二异氰酸酯和聚酯二元醇合成聚氨酯预聚体,采用N-甲基二乙醇胺(N-MDEA)为亲水扩链剂,制备了阳离子水性聚氨酯(CWPU)乳液,研究了制备CWPU乳液的影响因素,并研究了CWPU乳液涂膜的拉伸性能。研究表明,当N-MDEA的质量分数为7.0%-9.5%,R值为1.3-1.5,中和度为80%-100%时,可制得稳定性较好的CWPU乳液。随着N-MDEA含量增加,CWPU乳液涂膜拉伸强度增加,断裂伸长率下降;随着中和度的提高,涂膜拉伸强度和断裂伸长率同时提高。

有机硅改性水性聚氨酯增深剂的合成及应用

以异佛尔酮二异氰酸酯(IPDI)和聚丙二醇(PPG,Mn=600)为原料,在催化剂二月桂酸二丁基锡(DBTDL)作用下合成聚氨酯预聚体,经3-氨丙基三乙氧基硅烷(KH-550)改性后,通过1,4-丁二醇(BDO)和三乙醇胺(TEA)扩链,合成了阳离子型有机硅改性水性聚氨酯乳液.讨论了R值[n(—NCO)/n(—OH)]、w(KH-550)以及w(TEA)对乳液性能的影响.利用红外光谱(FT-IR)、核磁共振氢谱(1H-NMR)和Zeta电位表征了增深剂的结构及其性能,并测试了全棉织物和真丝织物经增深剂整理后的性能.结果表明:增深后的黑色全棉织物的增深百分率为19.73%,黑色真丝织物的增深百分率为17.49%,干、湿摩擦牢度提高0.5级以上,整理后织物的耐洗性能比较好.

硅烷偶联剂改性阳离子水性聚氨酯的研究

以硅烷偶联剂γ-氨丙基三乙氧基硅烷(KH550)为封端剂对阳离子型水性聚氨酯进行杂化改性,并以KH550和γ-缩水甘油醚氧丙基三甲氧基硅烷(KH560)为原料合成新型偶联剂D,对聚氨酯进行复合改性,分别合成了纳米SiO2/PU杂化材料和纳米SiO2/PU复合材料。通过FT-IR、粒径分析、AFM对样品的结构进行表征,并对样品的力学性能和耐水性、耐溶剂性进行测试。结果表明:两种体系均生成了二氧化硅相,二氧化硅相在杂化体系中的分散性好于其在复合体系中的分散性。对提高产品性能而言,化学封端改性比物理共混改性更有效。

阳离子全氟烷基水性聚氨酯涂膜表面性能的研究

以异佛尔酮二异氰酸酯(IPDI)、聚四氢呋喃二醇(PTMG1000)、N-甲基二乙醇胺(MDEA)、1,4-丁二醇(BDO)、三羟甲基丙烷(TMP)等为主要原料,采用全氟乙基辛醇(FEOH)封端改性,制备了含全氟烷基侧链的阳离子含氟水性聚氨酯。通过红外光谱(IR)对聚合物结构进行了表征,测量了涂膜与水和乙二醇的接触角,用表面电子能谱仪(ESCA)检测了聚氨酯成膜后的含氟成分的分布情况,并考察了该涂膜的耐热性和耐蚀性能。研究发现,全氟烷基聚氨酯成膜时产生了较大取向作用,含氟基团向空气/聚合物界面伸展,有明显的"趋表"现象,这有利于形成低能表面,对聚合物内部分子形成了很好地保护作用,使涂膜具有较高的耐热性及优异的耐蚀性能。

阳离子水性聚氨酯综述

综述了阳离子水性聚氨酯的发展概况、合成机理、合成方法以及原料的选择,并对影响乳液及胶膜性能的因素进行了讨论。最后还概述了阳离子水性聚氨酯的各种改性方法,并对其发展作了展望。

阳离子水性聚氨酯的合成及其固色性能的研究

以异佛尔酮二异氰酸酯、N-甲基二乙醇胺、1,4-丁二醇和三羟甲基丙烷(TMP)为硬段,以聚四氢呋喃二醇为软段,采用预聚体法合成一系列阳离子水性聚氨酯(WPU)乳液,并考察了R值、TMP含量对阳离子WPU乳液性能、胶膜的力学性能和耐水性以及处理过织物的耐摩擦牢度的影响。结果表明,当R值为1.10时,阳离子WPU胶膜耐水性较好,力学性能适中,处理过的织物相比未处理过的干、湿摩擦牢度均提高1级。当TMP质量分数为0.9%时,阳离子WPU胶膜耐水性能良好,力学性能较好,织物干摩擦牢度提高1级,湿摩擦牢度提高1~2级,固色性能最佳。

高固含量阳离子水性聚氨酯的合成与性能

通过向软段中引入不同阳离子亲水链段十二胺聚氧乙烯醚(PAE),设计合成了一系列高固含量、高稳定性的阳离子水性聚氨酯。通过红外光谱、粒径、拉伸力学、热重分析、吸水率及接触角等测试对乳液及胶膜进行分析。研究发现,在PAE环氧乙烷(EO)数目为10,n(PAE)∶n(POL7112)=1∶9,n(NCO)/n(OH)=1.2时,可合成固含量为51.28%的阳离子水性聚氨酯,体系显良好双峰粒径分布趋势;随着PAE加入量的增加,胶膜的断裂伸长率显著增大,拉伸强度略有小幅下降趋势;热稳定性明显提高;随着PAE分子中EO数目的增加,乳液粒径变小,稳定性增强,胶膜的亲水性显著增强。

阳离子水性聚氨酯的研究进展

本文综述了阳离子水性聚氨酯的合成机理及方法 ,介绍了合成研究过程中聚二醇、二异氰酸酯、叔胺化合物的选择以及国内外研究的新进展 ,并提出了阳离子水性聚氨酯的发展趋势。

(长链)脂肪胺聚氧乙烯醚(PAE)型阳离子水性聚氨酯乳液的制备和性能

以脂肪胺聚氧乙烯醚(PAE)替换部分聚己二酸新戊二醇酯(POL7112)为软段,甲苯-2,4-二异氰酸酯(TDI)为硬段,合成了系列侧链含长链烷基与主链嵌入聚醚结构(EO)的阳离子聚氨酯乳液。通过红外(FTIR)、粒径、力学性能、热重分析(TGA)、吸水率及接触角等测试对乳液及胶膜进行分析。研究发现,在PU大分子中引入PAE,热稳定性明显提高;当PAE烷基碳链增长,断裂伸长率显著增大,拉伸强度有所减小;随着PAE用量的增加及其分子中EO加合度的增大,乳液粒径变小,稳定性增强,胶膜的亲水性显著提高。

高固含量阳离子水性聚氨酯的性能研究

以聚酯二元醇为软段、异佛尔酮二异氰酸酯(IPDI)和N-甲基二乙醇胺(N-MDEA)为主要原料,采用丙酮法合成了高固含量(约50%)的CWPU(阳离子水性聚氨酯),并着重探讨了N-MDEA含量、软段种类对该CWPU的基本性能、结晶性能、力学性能和粘接性能等影响。结果表明:当w(N-MDEA)=5.5%～7.0%(相对于预聚体质量而言)时,可制得稳定的高固含量CWPU;软段的结晶性越好,高固含量CWPU的力学性能和粘接性能越高;当软段为聚己二酸己二醇酯(PHA)时,相应高固含量CWPU的邵A硬度(84)、拉伸强度(55 MPa)和剥离强度(初始剥离强度、24 h剥离强度为68.2、90.4 N/25 mm)相对最大,可作为胶粘剂使用。

阳离子水性聚氨酯研究进展

介绍了阳离子水性聚氨酯的发展概况,包括阳离子水性聚氨酯的优点,目前存在的主要缺点,合成机理、合成方法及合成原料。简述了预聚物中R[n(—NCO)∶n(—OH)]值、亲水扩链剂的用量、中和剂的种类及中和度等因素对阳离子水性聚氨酯性能的影响。概述了阳离子水性聚氨酯的各种改性方法,包括环氧树脂改性、羟基硅烷改性、丙烯酸酯改性、纳米粒子改性等。介绍了阳离子水性聚氨酯在皮革涂饰剂、胶粘剂、织物整理剂等方面的应用概况,并对其发展方向作了展望。