交联密度对脂肪族聚氨酯弹性体结构与性能的影响

采用异佛尔酮二异氰酸酯(IPDI)与聚醚二元醇、三羟甲基丙烷(TMP)和1,4-丁二醇反应制备了具有不同交联密度的脂肪族聚氨酯弹性体.研究结果表明,当聚氨酯弹性体的硬段含量为40 wt%时,随着TMP含量的增加,聚氨酯弹性体的交联密度线性增加.随着聚氨酯弹性体交联密度的提高,聚氨酯中硬段相的玻璃化转变温度由32℃降为2...     

FTIR研究交联聚氨酯脲弹性体的结构对动态性能的影响

用傅立叶变换红外光谱法(FTIR)研究交换PUU的结构指出,化学交联键的存在使得氢键化的NH吸收位置向高波数方向移动,同时羰基区内完全有序的氢键化脲羰基(1642cm-1)吸收较弱,完全有序的氨酯羰基(1693cm-1)吸收谱带观察不到.随着温度的升高,氢键化的NH吸收强度逐渐减弱,谱带吸收位置向高波数方向移动.FTIR结果揭示了交联PUU弹性体内部微相混合程度较线性PUU的高,交联PUU弹性体的回弹性在同温度下小于线性PUU的回弹性,随温度的升高,交联PUU弹性体极性键间的氢键化作用较易破坏,分子的柔顺性增加较快,交联PUU的回弹性增加幅度较大.交联密度越大,回弹性越小,压缩生热越大.硬段含量越高,材料的生热现象越严重.扩链剂的用量增加,对交联PUU的回弹性和压缩生热影响不大,但它显著地改善了PUU的疲劳性能.     

蓖麻油交联改性对室温自愈合聚氨酯性能的影响

以蓖麻油(CTO)或三羟甲基丙烷(TMP)作为交联剂,合成了一系列自愈合聚氨酯弹性体(PU)。借助核磁共振仪和红外光谱仪分析了产物结构,通过电子拉力试验机研究了交联剂添加量对PU的力学性能以及自愈合性能的影响。结果表明:CTO和TMP均能提高PU的拉伸强度,但是断裂伸长率会降低。随着交联剂用量的增加,PU内部交联度提升,自愈合性能下降。当PPG与TMP的物质的量之比为6∶4时,自愈合能力消失。在交联剂用量相同的情况下,CTO交联PU的自愈合性能保留效果比TMP交联PU更好。随着CTO用量的增加,断裂后愈合PU的拉伸强度先增加后减小。当聚丙二醇(PPG)与CTO的物质的量之比为7∶3时,总体性能最佳,在提高样品拉伸强度的同时,其自愈合后的拉伸强度恢复率为80.95%。     

扩链剂对脂肪族聚氨酯脲和聚脲弹性体结构与性能的影响

用异佛尔酮二胺(IPDA)、乙二胺(EDA)和己二胺(HDA)三种扩链剂合成了不同结构的脂肪族聚氨酯脲和聚脲, 并考察了扩链剂对聚氨酯脲和聚脲形态结构与性能的影响. 研究结果表明, 与EDA和HDA扩链的聚氨酯脲和聚脲相比, IPDA扩链的聚氨酯脲和聚脲中脲羰基的氢键化程度较低, 软段和硬段间的相混合程度较好; 同时它们具有更好的拉伸强度、硬度和撕裂强度, 但断裂伸长率较低. EDA和HDA扩链的聚氨酯脲和聚脲相比, 两者性能相差不大. 聚氨酯脲的脲羰基较完善氢键化程度以及整个氢键化程度都比聚脲的要低, 同时聚氨酯脲的吸水率也较低.     

用可再生原料合成聚氨酯脲水分散液——成膜后的结构与性能研究

以不同组成的蓖麻油和二官能度聚醚多元醇 (GE 2 10 )等原料合成了聚氨酯脲 (PUU)水分散液 ,研究了蓖麻油 GE 2 10的组成对PUU膜结构与性能的影响 .结果表明 ,由GE 2 10合成的PUU虽软硬段间存在一定的相容性 ,但其中脲羰基的氢键化程度高 ,硬段形成较好的有序结构 ,导致PUU膜具有较高的拉伸强度及断裂伸长率 ,但弹性模量和硬度下降 .在蓖麻油合成的PUU中脲羰基的氢键化程度及硬段有序结构均受到化学交联结构的抑制 ,故PUU膜的拉伸强度和断裂伸长率降低 ,但弹性模量及硬度较高 .由蓖麻油与GE 2 10在一定的组成范围内合成的PUU膜 ,具有优良的综合平衡的力学性能 ,后者与材料的结构形态相符     

含有双酚A链段的聚氨酯网络研究

首先合成与表征了一种含有双酚A结构的多元醇,通过添加这种多元醇至聚氧化丙烯聚醚多元醇中合成了含有双酚A链段的聚氨酯网络。通过DSC、FTIR和SEM等方法考察了这类聚氨酯网络的结构形态,研究结果表明,PU网络中的双酚A链段与聚氧化丙烯链段不相容,而且破坏了PU硬段的有序化结构。在聚氧化丙烯聚醚多元醇中添加5－10phr双酚A结构的多醇就能显著地提高聚氨酯网络的拉伸强度、弹性模量和断裂伸长率。     

端丙烯酸酯基超支化聚(酯-胺)的结构分析及光固化

近年来 ,具有树枝状结构的超支化聚合物因其独特的物理化学性质而得到广泛关注[1,2 ] .超支化聚合物主要采用 3种途径合成 ,( 1 )ABn(n >2 )型及潜ABn 型单体的聚合 ;( 2 )由A2 与Bn 型单体直接聚合 ;( 3)先由特定的单体对原位形成ABn型中间体后再聚合 .其中后两种方法可直接采用商业化原料 ,因此更具有实用价值 .目前 ,基于途径 ( 2 )已合成出超支化聚酰胺[3 ] 、聚醚[4] 、聚酰亚胺[5] 和共轭聚合物[6] 等 ,但该途径容易生成凝胶化产物 ,通过控制反应物浓度、在凝胶点之前停止反应等 ,可得到溶解型超支化产物 .由于超支化聚合物具有低…     

松香基聚醚酯弹性体的制备及表征

通过松香与聚醚丙烯酸酯的Diels Alder加成产物与聚乙二醇、柠檬酸的缩聚反应,合成出松香基聚醚酯弹性体,产物采用红外、拉伸、DSC和TGA进行了表征。 TGA测试表明,松香基聚醚酯弹性体的10%热失重温度在300 ℃以上,拉伸测试表明,拉伸强度为0.26～0.62 MPa,断裂伸长率为338%～458%。     

超支化聚氨酯阻尼涂层的制备及性能

以甲苯-2,4-二异氰酸酯(TDI)和二乙醇胺(DEOA)为原料, 采用一步法合成了超支化聚氨酯, 并对其改性制备了光固化超支化聚氨酯(UV-HPU)和超支化杂化聚氨酯(HHPU)两种树脂. 用傅里叶红外光谱(FTIR)和核磁共振氢谱(1H NMR)表征了预期产物. 以其为预聚物制备阻尼涂层, 动态力学分析(DMA)研究表明, 这两种涂层都具有高阻尼因子(tanδ≥1.0)、宽阻尼温度范围(tanδ≥0.5, 大于50 ℃)和宽阻尼频率范围(20～160 Hz); 通过基本性能测试和热重分析(TGA)发现杂化涂层聚氨酯较光固化聚氨酯具有更好的机械性能和热稳定性能; 杂化涂层聚氨酯的FTIR分析可知杂化涂层中硅氧烷水解缩合, 提高了交联密度; 杂化材料的断面扫描电镜(SEM)分析表明, 硅氧烷的水解缩合并未形成大颗粒纳米粒子而是形成均相体系.     

微相分离结合氢键复合构筑弹性体

通过嵌段聚合物的微相分离和高分子氢键复合,使用聚苯乙烯-b-聚丙烯酸-b-聚苯乙烯(SAS)三嵌段聚合物和聚氧化乙烯(PEO)均聚物构筑了具有多层次结构的弹性体(SA/E).聚丙烯酸(PAA)与PEO形成柔性的氢键复合物(PAA/PEO),刚性的聚苯乙烯(PS)与PAA和PEO不相容而发生微相分离,PS作为交联点连接着柔性的PAA/PEO.与PAA/PEO氢键复合物相比,SA/E弹性体力学性能明显提升,通过控制PS质量分数可调节弹性体的模量和强度等力学性能. SA/E弹性体表现出湿度敏感性.并且弹性体经拉伸训练后可获得一定的取向性,弹性回复率保持在98%以上.本弹性体在湿度传感、柔性器件、医用材料等领域具有潜在应用,为构筑新型弹性体提供思路.     

Synthesis, characterization and mechanical properties of polyester-based aliphatic polyurethane elastomers containing hyperbranched polyester segments

Aliphatic polyester-based polyurethane (PU) elastomers with hyperbranched polyester segments were synthesized from polyester diol, hydroxyl-terminated hyperbranched polyester (HB-20), isophorone diisocyanate (PDI) and 1,4-butanediol. The crosslinking density of the PU elastomer was calculated by using Flory-Rehner equation. The degree of hydrogen bonding, the microstructure and the morphologies of these PU materials were characterized by means of FT-IR, WAXD and DSC, respectively. The experimental results showed that the PU elastomers containing small amount of HB-20 exhibited the enhanced hydrogen bonding and mechanical properties. As compared with the comparable PU specimen, the tensile strength of the polyester-based aliphatic PU containing 6 wt% HB-20 increased by 71.2 times, up to 36.1 MPa, and the elongation at break was still as high as 333.1%, resulting from the dual effects of the hydrogen bonding and the crosslinking density in the PU system.     

Synthesis and characterization of hyperbranched polyesters and polyurethane coatings

Polyurethane (PU) coatings are widely used for variety of high‐performance applications in today's coating technology. The emerging hyperbranched polymers having three‐dimensional morphology have opened a new avenue to tailor the architecture of PU coatings. The methodology followed here is based on preparation of PU coatings from hyperbranched polyester. Initially, different hyperbranched polyester polyols (HPs) were synthesized by varying the hydroxyl‐terminated precursors that is, pentaerythritol, trimethylol propane or glycerol and keeping the diacid that is, adipic acid quantity constant at various mole ratios of 1:0.6, 1:0.8, 1:0.9, and 1:1, respectively. The obtained HPs were characterized by nuclear magnetic resonance (NMR) spectroscopy, matrix‐assisted laser desorption/ionization time‐of‐flight (MALDI‐TOF)‐mass spectrometry, and Fourier transform‐infrared (FTIR) spectroscopy. The degree of branching and the quantity of different structural units present in the various HPs were calculated by integrating the quaternary carbon and carbonyl zone in ¹³C NMR spectroscopy. The extent of condensation in different HPs was also calculated from ¹H NMR spectra. Later on, NCO‐terminated PU prepolymers (NCO‐PU) were synthesized by reacting HPs with isophorone diisocyanate (IPDI) at NCO/OH ratio of 1.6:1. In the third step, the excess NCO content in the NCO‐capped PU prepolymers were reacted with atmospheric moisture and hyperbranched polyurethane (HPU) coatings were formed. The coating films were analyzed by FTIR and dynamic mechanical thermal analysis instruments. © 2007 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem 45: 2673–2688, 2007     

Efficacy of clay content and microstructure of curing agents on the structure–property relationship of new‐generation polyurethane nanocomposites

The physicomechanical properties of new polyurethanes (PUs) derived from toluene diisocyanate, poly(propylene glycol), and cured by third‐generation hyperbranched polyester polyol (HB3), trimethylolpropane (TMP), or glycerol and their nanocomposites have been investigated. An apparent microphase‐segregated morphology of PU nanocomposites cured by HB3 has been observed by transmission electron microscopy and atomic force microscopy. Morphological studies reveal regions of mostly exfoliated and some intercalated morphology in the case of the nanocomposites, which have been further ascertained by X‐ray diffraction analysis. The HB3‐cured PU nanocomposite containing 8 wt% of modified montmorillonite (Cloisite 30B) clay shows approximately 140% increase in tensile strength along with improvement in thermal and dynamic mechanical properties in comparison with the control hyperbranched PU. It has also been found from Fourier transform infrared spectroscopy analysis that the extent of tethering reactions between the polymer chains carrying residual –NCO groups and the reactive hydroxyl (?OH) groups of HB3 is significant, and the nanofiller has been found to preferentially react with the –NCO group of the prepolymer. Furthermore, the properties of HB3‐cured PU have been compared with the glycerol and TMP‐cured PUs and their nanocomposites. The physicomechanical and thermal properties for nanocomposites of HB3‐cured PUs are superior to those of the conventionally cured PUs. Copyright © 2011 John Wiley & Sons, Ltd.     

Synthesis and characterization of hyperbranched polyurethane-urea coatings

A series of hyperbranched polyurethane (HBPU)-urea coatings were synthesized by a systematic two-step reaction process. Initially, isocyanate terminated PU prepolymers were prepared from a hyperbranched polyester polyols with isophorone diisocyanate at NCO/OH ratio of 1.6:1 for 5 h at 70-80 °C. The excess NCO content after the synthesis of NCO terminated HBPU prepolymer was completely reacted with atmospheric moisture. The obtained HBPU-urea networks were characterized with Fourier transform-infrared (FT-IR) spectroscopy for the quantitative evolution of the extent of urethane and urea bonds as well as to study the structure-property relationship. In order to find out the changes and types of intermolecular H-bonding interaction in the HBPU-urea films with the variation in polyester structure, the deconvolution of FT-IR spectra were carried out using Origin 6.0 software through Gaussian curve-fitting method. The viscoelastic properties and thermal stability of the synthesized coatings were determined by dynamic mechanical and thermal analyzer and thermogravimetric analyzer, respectively. For HBPU-urea samples glass transition temperature and thermal stability increased with the generation number from the first to the third. Polyester samples showed single step decomposition profile and HBPU-urea samples showed two-steps decomposition with good thermal stability.     

树状高分子溶液在粘度计毛细管表面的吸附现象

本文测定了树状高分子DAB(PA) n 水溶液和脂肪族超支化聚酯及其硅烷化衍生物溶液性质 .通过粘度测量 ,得到了吸附常数k ,半数吸附浓度ca,分子间缔合常数Km ,特性粘度 [η]等参数 ,解释了特性粘度的反常行为 ,重点研究了吸附现象 .发现树状高分子和超支化高分子溶液在粘度计毛细管表面形成了多层吸附 ,高分子之间的相互作用及高分子与溶剂分子间的氢键作用是形成多层吸附的重要原因     

Catalytic water dissociation using hyperbranched aliphatic polyester (Boltorn series) as the interface of a bipolar membrane

The effect of hyperbranched aliphatic polyester (Boltorn series) on the water dissociation in bipolar membranes was firstly investigated in this paper. The bipolar membranes were prepared by immersing the anion exchange layer in a hyperbranched aliphatic polyester solution and then coating on the layer a polyphenylene oxide (SPPO) solution. The SEM observations proved the existence of hyperbranched aliphatic polyester at the membrane intermediate layer. The adsorption amount was evaluated by the oxygen content via XPS. The junction thickness of the prepared bipolar membrane was determined by electrochemical impedance spectroscopy (EIS), and the membrane performances were evaluated by current-voltage curves. The results showed that the amount and generation of Boltorn series, and temperature all affected I-V behaviors of the fabricated bipolar membranes, and the former two played the critical role. These effects were explained on the basis of the water dissociation theory and the characteristics of hyperbranched aliphatic polyester.     

Influence of hyperbranched polyesters on the surface tension of polyols

The influence of hyperbranched polyesters with different functional end groups on the surface tension of mixtures with an oligo(ester diol) was investigated. The temperature dependence of the surface tension of the pure components and of the mixtures was measured by a modified Wilhelmy balance technique. The results indicate that the surface tension of the pure hyperbranched polyesters strongly depends on the functionality of the end groups. The functionalization of the hydroxyl end groups by short alkyl chains (methyl, tert-butyl) reduced the surface tension depending on the degree of substitution. The surface tension of the mixtures with the hydroxyl-terminated hyperbranched polyester was slightly increased at higher concentrations of the hyperbranched polymer compared to the surface tension of the pure ester diol. On the other hand, the surface tension of mixtures could be considerably decreased using 1% of hyperbranched polyester polyols partially substituted with short alkyl chains. In that case, the modified hyperbranched polyesters act as surface active agents. On the molecular level, the enrichment of the modified hyperbranched polyester in the surface region was proven by X-ray photoelectron spectroscopy measurements.     

超支化聚合物结构和形貌的表征与分析

用固定化酶Novozyme435(NV435)催化2,2-二羟甲基丁酸(BHB)与ε-己内酯(ε-CL)开环缩聚得到端基中一端带有一个羧基,另一端带有多个羟基的超支化共聚酯。利用核磁共振分析(NMR)、傅立叶红外(FTIR)、凝胶渗透色谱仪(GPC)对超支化聚合物进行结构表征,用扫描电子显微镜(SEM)分析了聚合物的表面形貌。     

Encapsulation and controlled release of a hydrophobic drug using a novel nanoparticle-forming hyperbranched polyester

An amphiphilic, hyperbranched polymer suitable for use in controlled drug delivery is reported. This polymer was obtained by modification of the hyperbranched aliphatic polyester Boltorn H20 (H20) with succinic anhydride and then glycidyl methacrylate, and formed nanoparticles in aqueous solution. The critical association concentration was 7.4 x 10(-3) g . L(-1), as determined by fluorescence spectroscopy using pyrene as a molecular probe. A static/dynamic laser light scattering (LLS) study revealed that the average particle size was 39.4 nm with a low particle size distribution (PDI=0.04), and that each particle was composed of about 350 amphiphilic molecules. Daidzein, a hydrophobic traditional Chinese medicine, was encapsulated during particle formation and the release properties were determined. The optimal feeding concentration of daidzein to hyperbranched polyester was 4.9 x 10(-5) g . mL(-1) to 5.0 x 10(-3) g . mL(-1) with a loading efficiency of 76.1%. In the presence of the enzyme Lipase PS, the drug loaded nanoparticles degraded in a random one-by-one manner and released the drug over a few days. This system is therefore a novel controlled drug release system based on nanoparticles formed of hyperbranched polyester. Encapsulation of daidzein by hyperbranched polyester particles.     

pH值响应性超支化多臂共聚物的合成及其自组装行为研究

以超支化双硫酯为链转移剂,偶氮二异丁腈(AIBN)为引发剂,采用可逆加成-断裂链转移(RAFT)活性自由基聚合方法,合成了以超支化聚酯(Boltorn H20)为核,聚丙烯酸为臂的两亲性超支化多臂共聚物(H20-star-PAA),并通过紫外分光光度计、动态光散射(DLS)和透射电子显微镜(TEM)对它在水溶液中的pH响应的自组装行为进行了研究.结果表明,在稀溶液条件下,H20-star-PAA始终以单分子胶束的形式存在,随着溶液pH的降低,胶束的PAA壳层会逐步塌缩,导致胶束尺寸减小;而在浓溶液条件下,当溶液的pH较低时,单分子胶束会进一步聚集形成多分子胶束.