Study on N-Phenylmaleimide/Styrene /Acrylonitrile Copolymer Prepared by Emulsion Polymerization

The emulsion polymerization of N-phenylmaleimide, Styrene and acrylonitrile was studied. The thermal property of this copolymer was measures by dynamic thermomechanical analysis(DMA). The mechanical properties, such as tensile strength, hardness and fie-cural Strength were StUdied experimentally. The results indicated that not only the monomer component but also the polymerization technologies have effect on the properties of the copolymer. The optimum monomer content and suitable polymerization method were obtained.

Preparation of Styrene-acrylate Latex Used in Ultralow VOC Building Internal Wall Coating

Styrene-acrylate latex with high glass transition temperature （T）, low minimum film forming temperature（MFT） and good stability was prepared via core-shell emulsion polymerization. With semicontinuous process, high conversion rate of monomer and low gel rate were achieved. The weight ratio of core monomer to shell monomer was approximately 1.35. It is found that many factors such as emulsifiers, initiators, reaction temperature, pH value and polymerization technology have influences on the permormance of styrene-acrylate latex. The prepared latex was characterized by TEM and FTIR. The obtained latex with T of 20.57 ℃, MFT or5.0 ℃, and good stability, had good stability of film forming.

EFFECTS OF ω-ACRYLOYL POLY (ETHYLENE OXIDE) MACROMONOMER ON EMULSIFIER-FREE EMULSI0N COPOLYMERIZATION OF METHYL METHACRYLATE AND n-BUTYL ACRYLATE

Well-defined nonionic hydrophilic ω-acryloyl poly(ethylene oxide) macro-monomer (PEO-A) has been prepared by living anionic polymerization of ethylene oxidewith diphenyl methyl potassium as the initiator and acryloyl chloride as the reaction termi-nating agent. The polymer was characterized by FTIR and SEC. The emulsifier-free emul-sion polymerization of methyl methacrylate (MMA) and n-butyl acrylate (BA) containingvarious concentrations of PEO-A was studied. In all cases stable emulsion coplymerizationsof MMA and BA were obtained. The stabilizing effect was found to be dependent on themolecular weight and the feed amount of the macromonomer.

Polypyrrole-coated styrene-butyl acrylate copolymer composite particles with tunable conductivity

A series of near or monodisperse styrene-butyl acrylate (SBA) copolymer latex particles with different butyl acrylate contents were coated with polypyrrole. The struc- ture of the SBA/PPy composites was characterized by trans- mission electron microscopy (TEM), scanning electron mi- croscopy (SEM), diffuse reflectance infrared Fourier trans- form spectroscopy (DRIFT), X-ray photoelectron spectros- copy (XPS), differential scanning calorimetry (DSC) and standard four-probe method. The core-shell morphology of the SBA/PPy composite particles was confirmed. The result of DSC showed that Tg of the composite is mainly determined by the core component. The effects of the concentration of polypyrrole, the butyl acrylate content in SBA copolymer and the nature of the counter-anion on the electrical conduc- tivity of compression-moulded samples were studied. It was first found that the electrical conductivity of the samples can be tuned by varying the butyl acrylate content in SBA co- polymer and the highest conductivity of the core-shell com- posite was 0.17 S·cm?1.

Effect of Butyl α-Hydroxymethyl Acrylate Monomer Structure on the Morphology Produced via Aqueous Emulsion Polymerization-induced Self-assembly

Polymerization-induced self-assembly(PISA) is an efficient and versatile method to afford polymeric nano-objects with polymorphic morphologies. Compared to dispersion PISA syntheses based on soluble monomers, the vast majority of emulsion PISA formulations using insoluble monomers leads to kinetically-trapped spheres. Herein, we present aqueous emulsion PISA formulations generating worms and vesicles besides spheres. Two monomers with different butyl groups, n-butyl(n BHMA) and tert-butyl(t BHMA) α-hydroxymethyl acrylate, and thus possessing different water solubilities were synthesized via Baylis-Hillman reaction. Photoinitiated aqueous emulsion polymerizations of n BHMA and t BHMA employing poly(ethylene glycol) macromolecular chain transfer agents(macro-CTAs, PEG45-CTA, and PEG113-CTA) at 40 °C were systematically investigated to evaluate the effect of monomer structure and solubility on the morphology of the generated block copolymer nano-objects. Higher order morphologies including worms and vesicles were readily accessed for t BHMA, which has a higher water solubility than that of n BHMA. This study proves that plasticization of the core-forming block by water plays a key role in enhancing chain mobility required for morphological transition in emulsion PISA.

水性环氧乳液/海泡石复合改性苯丙乳液涂层粘结性能研究

采用物理共混法制备水性环氧乳液/海泡石复合改性苯丙乳液涂层,探讨了苯丙-水性环氧乳液配比,三乙醇胺、填料及乳化沥青掺量对涂层粘结强度的影响,同时考察了复合涂层的抗渗性和耐高低温性。结果表明,当苯丙乳液与水性环氧乳液的有效质量比为1∶2,三乙醇胺、海泡石和乳化沥青掺量分别为2%、3%、5%时,复合涂层粘结强度为3.54MPa,与钢板间具有较好的相容性,且不透水性和耐高低温性优良。

改性黄泛区松散粉砂土的渗透试验研究

黄泛区地下室周围回填粉沙土存在回填不密实,极端降雨雨水渗入地下室四周引起地下室上浮,通过降低松散粉砂土的渗透系数防止雨水渗入,采用水玻璃、碳酸氢钠、苯丙乳液对松散粉砂土进行改性。开展凝胶时间、变水头渗透试验、浆液入渗研究。结果表明:混合浆液中各组分与水的比例:水玻璃为5∶45和15∶45、苯丙乳液为5∶45和15∶45、碳酸氢钠为(0.8~1.5)∶45时凝胶时间大于10 min能凝结成整块凝胶体符合注浆改性要求。改性粉砂土渗透系数随水玻璃用量增加而减小,水玻璃与苯丙乳液和碳酸氢钠和水的比例为15∶15∶1.2∶45时,粉砂土的渗透系数为1×10^(-8)cm/s。土体含水量对浆液渗透距离影响显著,改性施工宜在春天进行;水玻璃的用量对浆液渗透距离改变变化显著,距离需求可通过调节水玻璃用量来实现。浆液由上到下进行渗透,改性土渗透系数由1×10^(-8)cm/s逐渐增大到接近素土的渗透系数1×10^(-4)cm/s。通过电镜微观分析得出:浆液主要通过在土体表面形成阻水凝胶层和在土体内凝胶体填充土颗粒间孔隙且土颗粒间相互黏结起到阻水作用。

水性饰面型防火涂料的制备及其耐火性能研究

[目的]配方对防火涂料的性能有很大影响。[方法]以苯丙乳液和硅溶胶作为基料,聚磷酸铵、季戊四醇和三聚氰胺作为阻燃体系,二氧化钛作为颜填料,六偏磷酸钠作为分散剂,磷酸三丁酯作为消泡剂,羧甲基纤维素作为增稠剂,研制了一种适用于钢结构的水性饰面型复合膨胀防火涂料。利用模拟大板燃烧试验考察了各组分的质量分数对涂料性能的影响,并采用扫描电镜(SEM)对防火涂层燃烧后的微观结构进行表征。[结果]最佳配方为:苯丙乳液20.0%,硅溶胶4.0%,聚磷酸铵27.0%,季戊四醇22.0%,三聚氰胺21.0%,颜填料4.0%,助剂2.0%。此时涂料的耐燃时间长达57 min,燃烧后形成的炭层致密。[结论]该涂料具有良好的防火阻燃效果。

长开放期EPI木材胶粘剂的制备与性能表征

通过特定的乳液聚合工艺,制备了一款苯丙乳液(SAEP2),并将其应用于木材胶粘剂。系统地考察了聚乙烯醇的聚合度和浓度、异氰酸酯固化剂用量以及钙粉用量对胶粘剂开放期及粘接强度的影响。研究结果表明:胶粘剂开放期会随着聚乙烯醇的聚合度和浓度、异氰酸酯固化剂用量、碳酸钙粉末用量的增大而缩短;当m(SAEP2)∶m(10%的BP17水溶液)∶m(钙粉)=1∶1∶1,且异氰酸酯固化剂用量为13%时,制备的SAEP2胶粘剂湿强度达标(可达5.4 MPa),而开放期长达150 min。

极端顶点法制备碳酸钙超疏水涂层

目前,超疏水涂层存在着制备成本高、工艺复杂和环境污染等问题,阻碍了其工程化应用进程。文章以CaCO_(3)晶须及其纳米粒子为填料,水性苯丙乳液为粘结剂,以及硬脂酸锌为疏水改性剂制备超疏水涂层。首先采用油酸对CaCO_(3)晶须及其纳米粒子进行表面改性,然后基于极端顶点设计将改性后的CaCO_(3)晶须、改性后的纳米CaCO_(3)、苯丙乳液和硬脂酸锌为混合分量进行混料实验,以涂层接触角为响应变量建立回归模型,分析混合分量对接触角的影响。结果表明:采用不同形貌的CaCO_(3)粉体复合苯丙乳液可制备出超疏水涂层,在纳米CaCO_(3)与硬脂酸锌混合分量较高,CaCO_(3)晶须混合分量较低以及苯丙乳液适中的区域,接触角可达153.5°。通过表面形貌分析,涂层的黏附性与其表面的孔洞有关,而较高的纳米CaCO_(3)混合分量可降低涂层表面粗糙度,促进其超疏水性能。

阳离子型苯丙乳液施胶剂的改性及物性研究

为改善阳离子型苯丙乳液施胶剂的环保性,采用来源广泛、成膜性好且易生物降解的明胶和壳聚糖进行复合改性,确定了壳聚糖用量为阳离子型苯丙乳液施胶剂质量的0.35%,明胶用量应不高于0.35%,重点研究了明胶用量对明胶-壳聚糖改性阳离子型苯丙乳液施胶剂的分散性、pH、表面张力和固含量等物性的影响,结果表明:随着明胶用量的逐渐增加,明胶-壳聚糖改性阳离子型苯丙乳液施胶剂的静置稳定性、离心稳定性高,分散性为一级,pH保持2.30不变,固含量变化大,而表面张力和纸张白度变化小。

低吸水率水性隔热保温涂料的制备及性能

[目的]随着水性隔热保温涂料在工业涂装领域的广泛应用,其吸水率较高引发的涂层隔热性能下降问题亟需解决。[方法]以苯丙乳液作为主要成膜物,以偶联剂表面改性的中空玻璃微珠作为隔热填料,以涂层的导热系数和吸水率作为主要性能指标,制备了一种低吸水率的水性隔热保温涂料。通过傅里叶变换红外光谱仪(FT-IR)对不同偶联剂处理的中空玻璃微珠进行了表征,通过扫描电子显微镜(SEM)考察了涂层的微观结构和形貌,测试了浸水前后涂层的导热系数、力学性能和粘结强度。[结果]铝酸酯偶联剂的改性效果比硅烷偶联剂好。当铝酸酯偶联剂改性中空玻璃微珠添加量为25%(质量分数)时,涂层的综合性能最优,24 h吸水率为9.32%,浸水168 h后的导热系数为0.1228 W/(m·K),拉伸强度为2.45 MPa,断裂伸长率为28.37%,拉拔法粘结强度为2.32 MPa。[结论]采用合适的偶联剂对中空玻璃微珠进行表面改性可有效改善隔热保温涂料体系中有机-无机界面的相容性,从而降低其吸水率,增强其力学性能。

水性苯丙吸波涂层的制备与性能研究

吸波涂料是一种能够吸收和衰减入射电磁波的功能涂料,而水性吸波涂料更具有环保健康的特点。选择炭黑和羰基铁粉作为复合吸波剂,加入水性苯丙乳液中制备成本较低的复合吸波涂层。首先测试了炭黑和羰基铁粉的电磁参数,并计算得出成分为12%炭黑和70%羰基铁粉,厚度为2mm时吸波性能最佳,反射损耗优于-5dB的有效吸收频宽达到9.9GHz,反射损耗峰值达到-28.6dB。然后制备了含12%炭黑和70%羰基铁粉,厚度为2mm的苯丙吸波涂层,测试分析了苯丙吸波涂层的吸波性能以及涂料相关性能。

水性抗氧剂组成以及含量对ASA树脂性能的影响

采用乳液聚合法制备了核壳比为6/4的ASA核壳接枝共聚物胶乳,系统地研究了水性抗氧剂的组成以及含量对ASA接枝共聚物热氧老化性能的影响,并采用熔融共混法制备ASA树脂,探究了水性抗氧剂的组成以及含量对ASA树脂力学性能、表观性能的影响。结果表明,水性抗氧剂的组成CPL/DLTP为2/3时,其ASA接枝共聚物的热氧老化性能最优;随着水性抗氧剂含量的增加,ASA接枝共聚物的氧化诱导期显著增长;水性抗氧剂的加入量超过1%以后,ASA接枝共聚物的氧化诱导期增长不显著;在230℃空气条件下,添加1%水性抗氧剂的ASA接枝共聚物的氧化诱导期可达73.1 min,其抗热氧老化能力是相同条件下不添加水性抗氧剂ASA接枝共聚物的80倍以上;水性抗氧剂的组成及含量对ASA树脂的力学性能无明显影响,对其表观性能如白度影响明显。

湿摩擦牢度提升剂的复配与应用性能

使用自制的苯丙乳液与水性聚氨酯乳液作为织物的湿摩擦牢度提升剂,探究其在织物整理中的复配效果并优化整理工艺。结果表明:两种乳液以1∶2复配,总质量浓度为40 g/L,柔软剂的质量浓度为40 g/L,130℃焙烘3 min,黑色纯棉针织物的耐湿摩擦色牢度能提升2级。

汽车ASA材料超声波雷达衰减性能的研究

因雨季时雨水会影响装嵌在丙烯腈‑苯乙烯‑丙烯酸共聚物(ASA)格栅里的雷达波探测器发出的雷达波的传导方向而产生误报,本工作的目的是探究汽车ASA格栅材料提高雷达波衰减性能的影响因素,从优化材料的角度降低雷达误报的风险。经实验研究发现,ASA材料中的丙烯酸酯含量和种类是关键的影响因素,丙烯酸酯含量高且橡胶粒径较小的ASA胶粉表现出更好的雷达波衰减特性。

兼具高湿强度及长开放期EPI木材胶粘剂的制备与性能表征

首先分别制备了湿强度优异(6.4 MPa)但开放期较短(40 min),以及开放期较长(145 min)但湿强度偏低(3.8 MPa)的EPI木材胶粘剂用两款乳液(SAEP3和SAEP4),然后探索了两种乳液的配比对复合乳液胶粘剂性能的影响。研究结果表明:当两款乳液用量一样时,产生了协同效应,制得的乳液(SAEP5)胶粘剂开放期为100~120 min,湿强度达6.4 MPa。与同样条件下测试的市售SL6517胶粘剂相比,其开放期相当,湿强度高出SL6517胶粘剂(均值5.1 MPa)约25%。由此,成功制备兼具高湿强度及长开放期的EPI木材胶粘剂。

不同助剂对无机内墙涂料稳定性及成膜性的影响

[目的]以硅酸盐溶液作为主要成膜剂的无机内墙涂料存在贮存稳定性与成膜性能差的技术缺陷。[方法]以硅酸钾溶液和苯丙乳液作为主要成膜物,采用共混法制备无机内墙涂料,研究了不同分散剂、增稠剂、稳定剂和消泡剂对涂料黏度、防流挂性和涂层表观的影响。[结果]确定了制备无机内墙涂料的最佳工艺参数为:六偏磷酸钠(分散剂)0.4%(质量分数,下同),羟丙基甲基纤维素0.1%,黄原胶0.1%,聚氨酯类增稠剂0.5%~1.0%,季铵盐类稳定剂0.5%,矿物油类消泡剂0.5%。[结论]该涂料具有较好的贮存稳定性及成膜性能,能够满足相关国家标准的要求。

丙烯酸酯嵌段共聚物胶乳赋能高端压敏胶“油改水”

本文从压敏胶结构与性能的关系出发,总结了高端压敏胶的设计思路。基于活性乳液聚合技术,设计并制备出了可满足高端胶带要求的丙烯酸酯嵌段共聚物乳液,突破现有水性压敏胶性能不均衡、不耐湿热的困境,期待其能加速高端压敏胶的“油改水”进程。

硅丙乳液改性JS防水涂料的性能研究

以1∶9的质量比将3种不同型号的硅丙乳液(硅丙乳液1、硅丙乳液2、硅丙乳液3)分别与苯丙乳液复掺,然后与水泥等粉料按1∶1.5的质量比制成JS防水涂料并考察其性能。结果表明,与苯丙乳液制得的JS防水涂料相比,硅丙乳液1与苯丙乳液复掺制得的JS防水涂料拉伸强度和粘结强度最高,吸水率最低,但断裂伸长率会减小。优化复掺比例后发现,当硅丙乳液1的添加量为7.5%时,制得的JS防水涂料的拉伸强度、粘结强度、断裂伸长率和7 d吸水率分别为苯丙乳液制得的JS防水涂料的121%、125%、105%和84%,且符合GB/T 23445—2009标准的要求。