长烷基链对水性聚氨酯在非极性基材上附着力的影响

以聚己二酸新戊二醇酯（PNA）、二聚酸聚酯多元醇（BY3026）、异佛尔酮二异氰酸酯（IPDI）为主要原料制备了一系列侧链含长链烷基的水性聚氨酯（WPU）乳液并制成胶膜。通过FTIR、DSC表征了胶膜的结构和热性能，测试了乳液粒径及胶膜的力学性能、吸水率、接触角以及其在双向拉伸聚丙烯薄膜（BOPP）上的附着力。结果表明，当m(BY3026)∶m(PNA)从0∶1增加到3∶5,WPU乳液粒径增大，胶膜的耐水性增强，表面能先减小后增大，拉伸强度和断裂伸长率从52.6 MPa和2607.2%分别降低至38.7 MPa和1911.2%。当m(BY3026)∶m(PNA)=2∶5时，制备的WPU胶膜表面能为35.43mJ/m2,WPU乳液在BOPP薄膜上的T-剥离强度为2.98 N/25 mm。     

环保型水性聚氨酯复膜胶的开发及其在软包装中的应用

合成出不同结构的水性聚氨酯(WPU)复膜胶,以PET镀铝膜(VMPET)、双向拉伸聚丙烯(BOPP)和聚乙烯(PE)为复合薄膜,探讨了聚酯结构对WPU复膜胶粘接性能的影响,分析了异氰酸酯、水性固化剂和外加溶剂等对WPU复膜胶剥离强度和干燥速率的影响。结果表明:以混合聚酯、芳香族异氰酸酯为主要原料,配合水性固化剂,合成的WPU复膜胶对多种复合薄膜具有较好的粘接性能,其平均剥离强度达到3.48N/15mm;添加少量易挥发的无害溶剂,能够提高水性复膜胶的干燥速率,其最大复合速率达到110m/min,并且完全满足工业化的生产要求。     

多重改性水性聚氨酯胶粘剂对聚烯烃薄膜的粘接机理

以自制的多重改性水性聚氨酯(WPU)复合乳液为基料,配合适量的消泡剂、润湿剂和偶联剂等,制备出软包装覆膜用多重改性WPU胶粘剂。考察了消泡剂、润湿剂和偶联剂用量对胶粘剂性能的影响,分析了胶粘剂对聚烯烃薄膜的粘接机理。结果表明:该胶粘剂对经过电晕处理的聚烯烃薄膜表面润湿性好、润湿速率快,并且和基材表面存在着广泛的氢键,因此其与聚烯烃薄膜表面有较强的吸附作用;通过外加偶联剂己二酰肼(ADH),强化了胶粘剂对聚烯烃表面的粘接效果;当w(消泡剂)=0.3%、w(润湿剂)=0.5%和w(ADH)=0.5%时,BOPP(双向拉伸聚丙烯)膜和CPP(流延聚丙烯)膜之间的最终粘接强度为264 N/m,可以满足软包装覆膜用胶粘剂的使用要求。     

Synthesis of waterborne acrylic copolymer resin as a binding agent for the development of water-based inks in the printing application

In this study, a new waterborne acrylic copolymer resin (acrylic-co-resin) was synthesized to develop water-based printing inks on polyester (PET) film. The synthesized acrylic resin showed good water solubility, high acid value (120 mg KOH/g), about 57% solid content. The developed water-based inks (cyan, magenta, and yellow) exhibited small particle size (<1 μm) and optimum surface energy within required values (31.5, 32, and 30 mN/m) for good adhesion of ink upon PET films. The developed inks also showed good storage stability for 30 days. Further, to evaluate the application performance, the inks were printed on corona-treated PET films at room temperature, and the ink drying time was measured. Further, the inks were printed on the corona-treated PET film to evaluate the application performance. The developed inks showed a short drying time (7–9 s), which indicates their fast drying nature. Moreover, the developed inks showed good printability, color strength, high adhesion, and excellent rub-resistant properties. Thus, the overall results demonstrated the potential of water-based inks in printing applications.     

催化剂对复合薄膜用水性聚氨酯胶粘剂性能的影响

采用丙酮法制备了复合薄膜用的水性聚氨酯(WPU)乳液胶粘剂,研究了催化剂用量对WPU反应速率及其性能的影响。研究结果表明,适量的催化剂能明显加快聚氨酯(PU)预聚体的反应速率;当催化剂质量分数为0.1%时,WPU乳液的粘度和复合薄膜的T型剥离强度最大,但WPU胶膜的玻璃化转变温度(Tg)降低,由未加催化剂时的-25.5℃降低到-29.1℃。     

Polysiloxane/polyacrylate composite latexes with balanced mechanical property and breathability: Effect of core/shell mass ratio

Polysiloxane/polyacrylate (PSi/PA) core/shell latexes are fabricated, and the particle morphology, the film structure, as well as the properties of the latex films are investigated by comparing with blend latexes, and the relationship between structure and property is proposed. Results indicate that the structure and property of the latex films heavily depend on the particle morphology. The sea–island latex films with uniform distribution of PSi phases can be formed from the PSi/PA core/shell latexes, and with the mass ratio from 1:1 to 1:4, their tensile strength and elongation at break are close to the pure PA latex film, while the elastic recovery and water vapor permeability improve notably. It is found that the phase segregation occurs in the blend latex films, and although the blend latex films provide better water vapor breathability, their mechanical properties sacrifice obviously. Therefore, the various properties must be balanced for practical applications and the core/shell latexes are competitive for meeting the balanced requirements. © 2017 Wiley Periodicals, Inc. J. Appl. Polym. Sci. 2017 , 134, 45258.     

透明聚酯型水性聚氨酯的制备与性能研究

聚酯型WPU(水性聚氨酯)具有较高的力学强度和粘接强度,但是其较高的结晶性会导致胶膜透明性较差。以聚丙二醇(PPG)、聚己二酸丁二醇酯二醇(PBA)、异佛尔酮二异氰酸酯(IPDI)、2,2′-二羟甲基丙酸(DMPA)和1,4-丁二醇(BDO)等为原料,制备PPG改性聚酯型WPU。研究结果表明:PPG改性聚酯型WPU的黏度适中,储存稳定性良好;随着PPG含量的不断增加,WPU胶膜的透明性因结晶受阻程度增大而变好,相应胶粘剂的T型剥离强度和拉伸强度下降,而断裂伸长率升高;当w(PPG)=10%～20%时,相应WPU胶粘剂的透明性、T型剥离强度(≥1.97 N/mm)、拉伸强度(≥14.7 MPa)和断裂伸长率(≥421%)俱佳。     

Towards anti-corrosion coatings from surfactant-free latexes based on maleic anhydride containing polymers

We report on the film formation of surfactant-free, artificial latexes based on copolymers containing maleic anhydride. Different metallic substrates, such as aluminum, steel and magnesium alloys, were coated with three different latexes. A commercial polyester based coating was used as a comparative sample. Two of the latexes were based on polymer with a high T_g (resp. 100 and 130 °C), and one on a polymer with a T_g of −70 °C. The wetting of the substrates could be optimized by etching the metal substrate, acidic or alkaline, leading to homogenous film formation and improved adhesion. For aluminum substrates an alkaline pretreatment improved the adhesion with the polymer films, whereas for magnesium the acidic pretreatment improved the adhesion. Furthermore, acid pretreatment increased the corrosion resistance of the coated magnesium substrate, when compared to an alkaline pretreatment. The films formed from latex displayed comparable or better anti-corrosive properties when compared to the commercial polyester.     

Facile fabrication and modification of polyacrylate/silica nanocomposite latexes prepared by silica sol and silane coupling agent

Polyacrylate/silica nanocomposite latexes were prepared by silica sol and facilely modified with a silane coupling agent γ-methacryloxypropyltrimethoxysilane (KH-570) aimed at reinforcing the interaction between silica nanoparticles and latex particles in a convenient way. The effects of silica sol and KH-570 amounts on the performance of latexes and films are discussed. Particle size and morphology tests demonstrated that the silica nanoparticles could form hydrogen bond interactions between latex particles, and thus influence the rheological properties of latexes. Tensile measurements and SEM photographs showed the reinforcing and toughening roles of silica nanoparticles. SEM images also indicated that the addition of silica sol increased the roughness of films, which resulted in the increase of hydrophilic silanol groups on the film surface and the decrease of water resistance of latex films. The latex films retained good adhesion force, flexibility, and impact resistance even when the silica sol content was as much as 25%. TGA data revealed that the incorporation of silica sol enhanced the thermal stability of the films. After introducing KH-570, the particle size increased with the increase of the amount of KH-570. Moreover, the addition of KH-570 improved the water resistance and maintained other properties of the latex films appropriately.     

Surface modification of poly(tetrafluoroethylene) films by graft copolymerization for adhesion enhancement with electrolessly deposited copper

The surface modification of Ar plasma-pretreated poly(tetrafluoroethylene) (PTFE) films via UV-induced graft copolymerization with either 3-(trimethoxysilyl)propyl methacrylate (TM-SPMA) or glycidyl methacrylate (GMA) was carried out to enhance their adhesion to electrolessly deposited copper. The surface compositions of the PTFE films at various stages of surface modification and electroless plating were studied by X-ray photoelectron spectroscopy (XPS). The adhesion strength of the graft-copolymerized PTFE film to the electrolessly deposited copper was affected by the type of monomer used for graft copolymerization, the graft concentration, the plasma post-treatment time after graft copolymerization, and the extent of thermal post-treatment after metallization. The maximum T-peel strength achieved between the electrolessly deposited copper and the GMA graft-copolymerized PTFE film was about 11 N/cm. This adhesion strength represented a more than 20-fold increase over what could be achieved when the PTFE film was treated by Ar plasma alone. The mechanisms of the adhesion strength enhancement and the failure mode in the metal-polymer laminates were also investigated. It was found that the failure was cohesive in nature within the PTFE film.     

Fabrication and characterization of polysiloxane/polyacrylate composite latexes with balanced water vapor permeability and mechanical properties: effect of silane coupling agent

In order to improve the water vapor permeability and mechanical properties of latex films, polysiloxane/polyacrylate (PSi/PA) composite latexes were fabricated via seeded emulsion polymerization of methyl methacrylate and butyl acrylate onto PSi latex particles, and the effects of the silane coupling agent 3-methacryloyloxypropyl trimethoxysilane (MATS) on the morphologies of the latex particles and films, as well as the microphase separation degree, the water vapor permeability and the mechanical properties of the latex films were investigated. Results indicated that MATS was essential for obtaining the PSi/PA composite latex particles with PSi as core and PA as shell and made a great contribution to restrict the phase separation. The PSi/PA core/shell latex films showed similar tensile strength and elongation with pure PA film, while exhibiting promising water vapor permeability. It was found that the influences of MATS content on the water vapor permeability and mechanical properties were opposite, and on the premise of the requirements for mechanical properties, lower MATS content could provide the PSi/PA core/shell latex films with better water vapor permeability.     

聚氨酯丙烯酸水性木器涂料附着力影响因素的研究

以水性聚氨酯丙烯酸酯乳液(PUA)为基料配制水性木器涂料。从润湿与附着的角度考察了乳液种类、涂布量、基材润湿剂、附着力促进剂、成膜助剂等对PUA涂膜附着力的影响。结果表明:PUA乳液表面张力越低,润湿性越好,PUA涂膜附着力越强;涂布量增加,涂膜厚度增加,涂膜附着力降低;加入0.6%~0.8%(质量分数)基材润湿剂可明显提高涂膜附着力;附着力促进剂硅烷偶联剂能有效提高涂膜附着力;成膜助剂也对涂膜附着力有影响。     

The effects of latex coalescence and interfacial crosslinking on the mechanical properties of latex films

The effects of latex coalescence and interfacial crosslinking on the mechanical properties of latex films were extensively investigated by means of several series of model latexes with varying backbone polymer crosslinking density and interfacial crosslinking functional groups. It was found that the tensile strength of crosslinked model latex films increased with increasing gel content (i.e. crosslinking density) of latex backbone polymers up to about 75% and then decreased with further increase in gel, while their elongation at break steadily decreased with increasing gel content. These findings showed that latex particle coalescence was retarded above a gel content of about 75% so that the limited coalescence of latex particles containing gel contents higher than 75% prevented the tensile strength of crosslinked latex films from increasing by further crosslinking the latex backbone polymers. This was contrary to the theory of rubber elasticity that the tensile strength increases with increasing molecular weight and crosslinking density. This limitation was found to be overcome by the interfacial crosslinking among latex particles during film formation and curing. This paper will discuss the effects of both latex backbone polymer and interfacial crosslinking on latex film properties. It will also discuss the development of self-curable latex blends and structured latexes containing co-reactive groups: oxazoline and carboxylic groups.     

新型磺酸盐水性聚氨酯乳液的合成及其性能研究

以聚己二酸乙二醇酯二元醇、甲苯二异氰酸酯、乙二胺基己磺酸钠(N60)等为主要原料,制备了一系列不同N60用量的磺酸盐型水性聚氨酯(WPU)乳液。研究了N60用量对WPU乳液及其胶膜性能的影响,并通过FT-IR、TEM、TGA等方法进行表征。结果表明,磺酸盐型WPU乳液的贮存、冻融、高温稳定性均较好。随N60用量的增加,磺酸盐型WPU乳液粒径先减小后增大,粒径分布变窄,胶膜的拉伸强度、吸水率呈上升趋势、断裂伸长率下降。TEM图显示微粒分散性好,呈球形;相对于羧酸型WPU,磺酸盐型WPU胶膜的拉伸强度提高,热稳定性更好。     

聚丙烯酸酯/铜酞菁蓝复合乳胶膜中颜料颗粒的分散状态

引言功能颗粒存在下,水性胶乳在织物、纸张、皮革等目标基质表面的焙烘成膜是众多生产领域中普遍存在着的一个固化成型过程。通常认为功能颗粒在乳胶膜内初级粒子形式的均匀稳定分散可赋予涂层最佳的功能性和黏结牢度[1]。但目前常见的、基     

水性环保复合粘合剂的性能研究

采用乳液聚合法合成了一种水性丙烯酸乳液粘合剂,将其应用于干法复合的BOPP／VMCPP膜上。研究了涂胶量、熟化时间和温度对粘合剂剥离强度的影响。结果发现,用于复合BOPP／VMCPP时,合适的涂胶量为20g／m2左右,熟化温度N45—50℃,熟化时间为1～2h．剥离强度达13—1．8N／15mm,可以满足使用要求。同时,该粘合剂也可以用于普通塑料膜之间的复合,剥离强度可达20N／15mm。     

环氧大豆油和硅氧烷改性水性聚氨酯胶黏剂

以环氧大豆油(ESO)与3-氨基丙基三乙氧基硅烷(KH550)双重交联改性水性聚氨酯(WPU).通过FTIR、TG、DSC、DMA、AFM、粒径分析仪、拉力试验机等仪器对改性的水性聚氨酯进行了表征.研究了ESO和KH550的含量对水性聚氨酯乳液、胶膜以及胶黏剂性能的影响.分析了KH550对水性聚氨酯结晶性能和微相分离的影响.研究发现,随着ESO与KH550的加入,水性聚氨酯乳液的性能得到改善,胶膜的吸水率先减小后增大,拉伸强度逐渐增大,断裂伸张率逐渐减小.水性聚氨酯胶黏剂对PVC的T-剥离强度先增大后减小.随着KH550含量的增加,热稳定性逐步改善,结晶性降低,软段与硬段相混合程度提高.当ESO为4%、KH550为2%(均为质量分数)时,水性聚氨酯胶黏剂的综合性能最好.     

Enhanced dielectric properties of sandwich-structured biaxially oriented polypropylene by grafting hyper-branched aromatic polyamide as surface layers

This work represents multilayer films with sandwich structure by grafting hyper-branched aromatic polyamide (HBP) on both sides of biaxially oriented polypropylene (BOPP) (HBP BOPP HBP). BOPP serves as the middle layer to offer high breakdown strength and HBP acts as surface layers to boost the dielectric constant. As a result, the dielectric constant increases significantly from 2.2 of control BOPP to 5.5 (almost increased 1.5 times) after grafting 2.06 μm HBP surface layers, while the dielectric loss still remains at a very low level (<0.03). In addition, all HBP BOPP HBP sandwich-structured films show higher charge energy density than that of unmodified BOPP. For instance, the discharge energy density of HBP BOPP HBP (1-20-1) film is up to 2.38 J/cm³ at an applied electric field of 400 kV/mm, which increases about 36% over that of pure BOPP (i.e., 1.75 J/cm³). Meanwhile, charge–discharge efficiency retains about 90%. This work offers a simple strategy to fabricate polymer-based high performance dielectric composites.     

Organosilicone modified styrene-acrylic latex: preparation and application

In this paper, organosilicone modified styrene-acrylic (OSA) latexes for waterproof coating were synthesized through core–shell emulsion polymerization. The influence of emulsifier type and dosage on the size, size distribution and morphology of the latex was systematically investigated. The water absorbance and thermal decomposition behavior and the mechanical properties of the waterproof coating depending on the organosilicone introduced on the latex shell were also studied. Transmission electron microscopy and dynamic light scattering results indicated that the particles had a regular spherical morphology with different diameters and distributions. Thermal gravimetric analysis results revealed that the thermal stability of the latex films was improved with the introduction of organosilicone. The waterproof property of the OSA latex film was obviously increased as compared to that of the styrene-acrylic latex film. The tensile strength and fracture elongation of the elastic waterproof building coating made of the OSA latex and cement powder were significantly greater than that made of the styrene-acrylic latex and cement powder.     

非结晶性水性聚氨酯油墨连接料的合成

以端羟基聚丁二烯(HTPB)、聚己二酸新戊二醇酯(PNA)、异佛尔酮二异氰酸酯(IPDI)为主要原料制备了一系列水性聚氨酯乳液.采用FTIR、XRD、SEM对胶膜的结构及形貌进行了表征,对乳液性能、胶膜的吸水率、力学性能及胶膜在双向拉伸聚丙烯(BOPP)薄膜上的剥离强度进行了测试,通过胶膜与水、乙二醇、二碘甲烷的接触角测试计算了胶膜的表面能.结果表明,随着HTPB含量的增加,乳液粒径逐渐增大、胶膜表面能大致呈逐渐减小趋势.当HTPB含量为PNA物质的量的30％时,水性聚氨酯乳液综合性能最好,平均粒径为287.3 nm,胶膜表面能为31.77 mJ/m2,拉伸强度为14.20 MPa,断裂伸长率为977.72％,在BOPP薄膜上的剥离强度为4.4 N/25 mm.以该乳液配制的油墨满足GB/T 26394—2011《水性薄膜凹印复合油墨》对油墨黏度13～50 s的要求,且具有良好的初干性和抗粘连性,可满足日常使用.