软硬段对聚氨酯弹性体结构性能的影响

采用本体聚合和溶液聚合两种方法,合成了一系列用聚乙二酸丁二醇酯二醇作为软段的聚氨酯弹性体。研究了硬段含量和聚醚添加量对聚氨酯弹性体综合性能的影响。利用红外光谱、热分析、力学性能测试、记忆回弹性能和耐水解老化实验等测试手段对样品进行了表征与分析。结果表明:硬段质量含量为31%~35%时,材料的力学性能较优,形状回复率可以达到75%~85%;软段中聚醚添加量在4%~5%(占软段的质量分数)时,弹性体具有较好的力学性能和耐水解性能。     

软硬段对聚氨酯弹性体结构性能的影响

采用本体聚合和溶液聚合两种方法,合成了一系列用聚乙二酸丁二醇酯二醇作为软段的聚氨酯弹性体。研究了不同硬段含量和聚醚添加量对聚氨酯弹性体综合性能的影响。利用红外光谱,机械性能测试、热分析、耐水解老化实验和记忆回弹性能等测试对样品进行表征与分析。结果表明:当硬段含量为33%～34%,软段中聚醚添加量为4%～5%(占软段的质量分数)时,弹性体具有较好的力学性能和耐老化性能,弹性回复率可维持在80%～85%。     

脂肪族水性聚氨酯的动态力学行为研究

合成了一系列脂肪族水性聚氨酯 .考察了软段的组成、软段分子量及DMPA用量对产物动态力学性能的影响作用 .实验结果表明 ,软段的化学结构对水性聚氨酯的相态结构影响很大 .聚醚型水性聚氨酯具有较低的软段玻璃化转变温度 (Tgs) .聚醚型产物的微相分离程度高于聚酯型产物 .当采用聚酯和聚醚二元醇为混合软段时 ,Tgs随软段中聚醚含量的提高而逐渐降低 .提高DMPA用量 ,软段玻璃化转变温度Tgs移向低温区 ,硬段玻璃化转变温度Tgh移向高温区 ,说明体系的微相分离程度加大 .当软段分子量较低时 ,产物为半相容结构 ,只有一个主转变峰 ,软段的玻璃化转变以肩峰的形式出现 ;当软段分子量较高时 ,产物的微相分离程度较高 ,可以分别观察到软段及硬段的玻璃化转变 .总之 ,通过改变软段的种类、组成和分子量以及DMPA用量 ,可以大幅度地改变水性聚氨酯的形态结构 .     

主链含四重氢键基元聚氨酯的合成与性能

合成了一种新型含有UPy(2-ureido-4[1H]-pyrimidone)基团的二羟基化合物,以此二羟基化合物作扩链剂,通过与聚氨酯预聚体进行的扩链反应,制备了一系列主链含UPy的聚氨酯(PU-UPy).傅里叶红外光谱(FTIR)、氢核磁共振(1H-NMR)等测试结果表明,在聚氨酯主链中确实含有UPy链段.同时,热性能及力学性能测试表明,聚氨酯中的UPy二聚体会集聚而形成微晶,熔点在60℃附近.在聚氨酯主链中引入UPy,能大幅提高聚氨酯的力学性能,调整软段的分子量,以及在主链中UPy含量可改变聚氨酯弹性体的断裂伸长率和抗张强度.     

环氧改性水性聚氨酯乳液的制备及其膜性能

以聚己内酯二元醇(CAPA)为软段,异佛尔酮二异氰酸酯(IPDI)和六亚甲基二异氰酸酯(HDI)为硬段,环氧树脂E-44为大分子交联剂,经相转化法合成了一系列环氧树脂改性负离子水性聚氨酯(EPPU)自乳化乳液,并制备了改性水性聚氨酯的固化膜.通过FTIR、TGA及接触角、力学性能测试对聚合物结构及其膜性能进行了研究.通过原子力显微镜(AFM)观察膜表面形态和表面粗糙度.乳液粒径及粒径分布通过动态激光光散射法(DLLS)测定.FTIR分析表明环氧树脂的羟基和环氧基都参与了发应.TGA表明,环氧树脂的加入可以提高聚氨酯的热稳定性.随着w(E-44)增大,改性聚氨酯膜的拉伸强度得到改善,断裂伸长率减小.随着w(E-44)增大,乳液粒径增大,薄膜的接触角增大,改性后的PU膜表面光滑度下降,拒水性增强.     

聚乙二醇型聚氨酯软硬段对其相变储热性能的影响

以不同分子量的聚乙二醇(PEG)为软段,MDI-BDO为硬段,采用两步法溶液聚合合成一种具有固-固相变储热性能的聚氨酯材料.通过DSC,WAXD等测试手段对体系的软硬段结晶性,微相分离,相变可逆性及循环热稳定性进行研究,结果表明,聚氨酯中硬段的存在对软段结晶有着很大的影响,当软段分子量达到2000或以上时,软段才具有较大的结晶度和熔融相变焓,且硬段含量必须高于一定值才能形成较为完善的物理交联网络以保证材料在发生相变时维持固体状态.同时符合这两个条件的试样能具有较好的固-固相变储热性能.就软段PEG含量及分子量对材料储热性能的影响进行了研究,通过调节软段含量与分子量得到一系列具有不同相变焓和相变温度的聚氨酯固-固相变储热材料.经测试还发现,该材料具备很好的相变可逆性和循环热稳定性,是一类很有开发前景的相变储热材料.     

聚醚聚氨酯-聚醚聚酰亚胺合金相结构的研究

通过不同分子量的对－氨基苯甲酸酯封端的聚（四次亚甲基）醚和均苯甲甲酸二酐反应,合成了聚醚聚酰胺酸;然后以不同重量比将聚醚聚氨酯和聚醚聚酰胺酸溶液混合反应亚胺化,制备了一系列不同硬段含量的聚醚聚氨酯－聚醚聚酰亚胺合金。用傅立叶变换红外光谱、动态力学分析、示差扫描量热、广角Ｘ－衍射、应力应变试验等分析测试方法对合金进行了研究,结果表明聚醚聚氨酯－聚醚聚酰亚胺合金具有很好的相分离结构,是一类新型耐高温、有韧性的热塑性弹性体。聚醚分子量相同的聚氨酯和聚酰亚胺形成的合金软段相容,合金具有两相结构;聚醚分子量不同的聚氨酯和聚酰亚胺形成的合金软段存在相分离,合金具有三相结构,表现在材料外观上分别为透明不透明的韧性膜,少量聚酰亚胺的掺入,能大大增加材料的耐热性能,而合金的材料力学性能没有明显变化。     

高固含量低黏度聚氨酯微乳液的制备及性能研究

以聚(四氢呋喃-co-氧化丙烯)二醇(Ng210)为软段,异佛尔酮二异氰酸酯(IPDI)为硬段,以1,2-二羟基-3-丙磺酸钠(DHPS)和二羟甲基丙酸(DMPA)作为亲水扩链剂,采用自乳化法合成了一系列了高固含量低黏度稳定聚氨酯微乳液,分析了DHPS和DMPA质量配比对乳液性能的影响,结果表明,所得乳液粒径呈多元分布,乳胶粒子呈球形;乳液为假塑性流体,表观黏度小于250mPa.s(剪切速率为25s-1)且随切变速率的变化规律呈现一定的切力变稀特征;随着DHPS/DMPA比值的增大,胶粒平均粒径逐渐减小,多分散性增强;当DHPS/DMPA值为4/10～6/10时,乳液中大小粒子粒径比为6～8,且大乳胶粒子的体积分数约为70%～75%,乳液的固含量均大于70%.另外,乳液具有较好的低温和高温以及贮存稳定性,具有较低的表面张力,相对于常规的聚氨酯乳液,所制备的高固含量聚氨酯乳液胶膜具有更好的力学性能.     

赖氨酸乙酯扩链聚氨酯弹性体的制备

以1,6-六亚甲基二异氰酸酯(HDI)为硬段、聚碳酸酯二元醇(PCDL)为软段、赖氨酸乙酯盐酸盐(Lys-OEt)作为扩链剂合成一种新型聚碳酸酯型聚氨酯弹性体.通过力学性能测试、原子力显微镜(AFM)、红外光谱分析和细胞培养,探讨了聚氨酯弹性体软硬段比例、扩链剂对材料性能的影响和材料的细胞毒性.结果表明:随着硬段含量的增加,聚氨酯的机械性能提高.采用Lys-OEt扩链的聚氨酯弹性体拉伸强度达到18.6 MPa,在Lys-OEt、1,4-丁二醇(BDO)、二羟甲基丙酸(DMPA)3种扩链剂中力学性能最佳.初步的细胞培养实验证明,该材料具有良好的细胞相容性.     

嵌段聚醚聚氨酯-酯热塑性弹性体的合成和性质

本文用对苯二甲酸双羟基乙二醇酯及其二聚体作扩链剂,合成了一系列聚醚聚氨酯-酯嵌段共聚物(PEUE),并用热分析法、动态力学分析、应力-应变等方法对所合成的聚氨酯材料进行了形态结构和性能关系的研究,结果表明:这类聚氨酯弹性体由于硬段具有较好的结晶性,致使材料的力学性能得到提高;另外,由于硬段酯基与软段聚醚的相互作用,材料的相容性有所改进.     

Aqueous dispersion of polyurethane ionomers from hexamethylene diisocyanate and trimellitic anhydride

Polyurethane (PU) ionomers were prepared from trimellitic anhydride (TMA), poly(tetramethylene adipate) glycol (PTAd), and hexamethylene diisocyanate (HDI) in acetone. Upon neutralizing the carboxylic groups with a tertiary amine (TEA), and adding water to PU ionomer solution, followed by removing the acetone, stable aqueous PU dispersions were obtained.Effects of interionic molecular weight and nonionic hydrophilic segment, viz. monofunctional ethylene-propylene oxide ether on particle, size, emulsion viscosity, mechanical, and viscoelastic properties of the emulsion cast films were examined.     

Poly(vinyl chloride) composite emulsion resins modified by polyurethane

An ionomer-type of polyurethane (PU) emulsion was prepared from toluene diisocyanate (TDI), polypropylene glycol (PPG) and dimethylol propionic acid (DMPA) following a self-emulsification process. The modified poly(vinyl chloride) (PVC) emulsion resin was obtained by in situ emulsion copolymerization using the PU as seeds in an autoclave. The effects of PU molecular weight on the mechanical properties and thermal stability of the PU/PVC materials were investigated. The composite latex particles and composite materials were determined and characterized using a laser particle size analyzer, transmission electron microscopy or scanning electron microscopy. The study results showed that the PU/PVC hybrid emulsion particles possess a core/shell structure. When the general mechanical properties of the composite materials increase, the thermal stabilities decrease a little. The tough fractures on the surface of the PU/PVC composite sample following impact are quite obvious. __________ Translated from Journal of Hebei Normal University (Natural Science Edition), 2007, 31(2): 228–232 [译自: 河北师范大学学报(自然科学版)]     

Structure and properties of polyurethane/polyacrylate latex interpenetrating networks hybrid emulsions

Some new kinds of novel polyurethane (PU)/polyacrylate (PA) latex interpenetrating networks (LIPNs) were synthesized. Firstly PU dispersions were synthesized by self-emulsification polymerization. Then PU/PA LIPNs using PU dispersion as the seed were prepared by soap free emulsion polymerization. The effects of different PU/PA ratios, the blending method and the NCO/OH molar ratio of PU components on PU/PA LIPNs performance were also investigated. The structure and properties of PU/PA LIPNs such as mechanical properties, particle size, morphology of the surface were characterized by dynamic mechanical analysis, scanning electron microscopy, and dynamic light scattering. It was found that PU/PA LIPNs can markedly improve the water resistance and the mechanical properties of PU latex much more than those of PU/PA physical blends due to a great deal of interpenetrating and entangling between PU and PA latex. Moreover, the particle size of PU/PA LIPNs is related to the PA content and NCO/OH molar ratio of PU components: the higher the NCO/OH molar ratio in PU dispersions, the larger is the particle size of PU/PA LIPNs, and the average particle size of PU/PA LIPNs becomes larger with an increase in PA content.     

水性聚氨酯胶粘剂结构与性能的研究

以聚醚烽异氟尔酮二异氰酸酯为主要原料,以二羟甲基酸为亲水单体制备了一组不同配方组成的聚氨酯乳胶粘剂。通过粘度测定、粒度分析、力度性能的测试以及DSC分析,研究了新水剂含量、软链段的类型和加料方法对乳液及其胶膜性能的影响。结果表明：二羟甲基丙酸含量在3％－8％之间可获得比较稳定的乳液,并且两步法较一步法制得的乳液分散性好,但胶膜力学性能方面,一步法较好。     

氨基硅油扩链改性水性聚氨酯的合成及性能研究

采用甲苯二异氰酸酯(TDI)、聚氧化丙烯二醇(PPG)、2,2-二羟甲基丙酸(DMPA)为原料,先制备成聚氨酯预聚体,再通过在乳化过程中以侧链氨基硅油(AEAPS)或直链氨基硅油(ATPS)扩链制得了一系列水性聚氨酯乳液,并对涂膜的红外光谱、耐水性、力学性能和表面疏水性等进行了研究。结果表明,通过氨基硅油改性的聚氨酯涂膜,在保持力学性能基本不变的情况下,其耐水性、表面疏水性等性能都有明显提高。其中,侧链氨基硅油(AEAPS)比直链氨基硅油(ATPS)具有更好的改性效果。     

Polyurethane cationomers. I. Structure–properties relationships

Polyurethane (PU) cationomers have been synthesized by quaternizing tertiary amine-containing linear polyurethanes using different quaternizers containing acid groups. The effect of chemical structure of PU cationomers on the physical properties was studied. The mechanical properties of PU cationomers were improved with decreasing molecular weight of poly(caprolactone) glycol, and increasing concentration of quaternary ammonium. Decreasing the carbon number in the alkyl group of the N-alkyl diethanol-amine chain-extenders, and using rigid symmetrical diisocyanates, the mechanical properties of the PU cationomers were increased. The effects of these factors on the glass transition temperature of PU cationomers were also examined. The mechanical properties of the PU cationomers decreased by immersion in water and recovered after removal of the water.     

Polyurethane Ionomers from Cycloaliphatic Diisocyanate and Polytetramethylene Glycol

Abstract

Segmented polyurethane (PU) ionomers were prepared from cycloaliphatic diisocyanate [methylene bis(4-cyclohexyl isocyanate) (H₁₂MDI) and isophoron diisocyanate (IPDI)] and polytetramethylene glycol (PTMG) by using an anionic-type chain extender, viz., dimethylol propionic acid (DMPA). The effect of ionic content and butanediol (BD) on the state of dispersion and physical properties of emulsion-cast film was determined using Autosizer, transmission electron microscopy (TEM), Instron, and Rheovibron. With increased incorporations of DMPA in PU, particle size of emulsion decreased asymptotically, tensile modulus and strength increased, and the glass transition temperature (T _g) moved toward the higher temperature. On the other hand, with increased incorporation of BD in PU, particle size of emulsion, tensile modulus, and strength of the emulsion cast film increased, and the major transition of soft segment moved toward higher temperature. With regard to the structural effect of the isocyanate, H₁₂MDI gave finer dispersion and better mechanical properties over IPDI.     

聚氨酯/分子筛复合材料的制备及性能

以聚对苯二甲酸乙二醇酯（PEA）、甲苯二异氰酸酯（TDI-80）、扩链剂（MOCA）、分子筛为原料,采用预聚体法制备了聚氨酯／分子筛复合材料．考察了分子筛的种类及加入量对聚氨酯／分子筛复合材料的耐溶剂性能、力学性能及热分解温度的影响．结果表明：在相同加入量的前提下,采用4A和13X分子筛制备的复合材料,前者的耐溶剂性能及力学性能要优于后者,当加入量为5％时,性能达到最佳．两者的加入均能提高复合材料的热分解温度,但影响相差不大．     

脂肪族水性聚氨酯的力学性能研究

考察了软段的种类、分子量大小、混合软段的组成对产物力学性能的影响作用。同时还研究了二羟甲基丙酸(DMPA)用量以及中和剂的影响作用．实验结果表明。软段结构对脂肪族水性聚氨酯成膜的力学性能影响很大，聚酯型产物具有较高的模量和拉伸强度。聚醚型产物则具有较高的伸长率．混合软段对产物力学性能的影响较为复杂，随着软段中聚醚含量的升高，产物的硬度和模量均大幅度下降，但拉伸强度和伸长率的变化并不是一个线性关系．产物的模量随软段分子量的提高而降低，但伸长率和拉伸强度却有所提高．当DMPA用量较高时。产物的模量和拉伸强度均较高：当DMPA用量较低时，产物则具有较高的伸长率．中和剂的种类对产物力学性能的影响明显，当以NaOH为中和剂时，产物具有较高的硬度、模量、拉伸强度：以三乙胺为中和剂时，产物具有较高的伸长率．     

氨基硅油扩链改性水性聚氨酯的研究

通过将由甲苯二异氰酸酯与聚四氢呋喃,二羟甲基丙酸反应制得的聚氨酯预聚体在低浓度氨基硅油的水乳液中扩链,合成了一种硅氧烷改性的聚氨酯水乳液,并用傅立叶红外光谱,ＥＳＣＡ能谱,接触角仪,电子拉力试验机,吸水率测定及乳液稳定性测试对其进行研究。