烯丙基聚烷氧基环氧醚的制备及其性能

针对烯丙基聚烷氧基环氧醚中存在催化剂和钾钠离子含量高,导致制备的三元共聚嵌段硅油反应活性差的问题,研究了在无相转移催化剂的条件下制备烯丙基聚烷氧基环氧醚的方法,表征了产物的结构,分析了制备条件对产物pH值与环氧指数的影响;以其为原料制备了三元共聚嵌段硅油,并对棉织物进行柔软整理,分析了整理后织物的亲水性、手感及物理力学性能。结果表明:当原料烯丙基聚氧乙烯醚、环氧氯丙烷和氢氧化钠的量比为1∶2.5∶1.5,冰醋酸的添加量是过量氢氧化钠的1.1倍时,产物烯丙基聚烷氧基环氧醚的环氧指数为1.77 mol/kg,pH值小于7,精制后钾钠离子含量可降低到5 μg/g以下;织物经过硅油整理后具有较好的亲水性,当整理液质量浓度为30 g/L时,毛效达到7.3 cm,手感评级达到4.7级以上,织物整体性能有所提高。     

涤纶针织布的有机硅改性聚酯-聚醚共聚物整理

采用酯交换-缩聚反应,在催化剂与稳定剂的作用下,以对苯二甲酸二甲酯、乙二醇、聚乙二醇与自制聚醚硅油为原料合成了有机硅聚酯-聚醚共聚物整理剂。试验探究了聚醚硅油的用量对反应产物性能的影响,通过红外光谱表征了有机硅聚酯-聚醚共聚物的结构,并对其在涤纶针织物上的最佳应用条件进行了研究。结果表明:聚醚硅油用量占酯交换反应物质量分数为6%时,用其处理的针织物亲水性和手感较好;最佳使用工艺条件为浸轧法,质量浓度20 g/L,120℃焙烘60s。     

Enhanced anti-graffiti or adhesion properties of polymers using versatile combination of fluorination and polymer grafting

Commonly used polymers and polymer articles have some advantages, e.g. low. But very often they have not very good adhesion, barrier properties, low conductivity, etc. Specialty polymers possessing necessary properties, e.g. fluoropolymers, can be used to fabricate polymer articles. However, practical use of specially synthesized polymers is restricted due to their high cost and complexity of synthesis. It is possible to coat a polymer with another polymer layer with necessary properties but this co-extrusion method is difficult to apply due to a complexity of applied equipment. Also the problems of adhesion between two polymers and polymers compatibility are to be solved. Very often application properties of polymer goods (adhesion, barrier properties, conductivity, etc.) are defined mainly by their surface properties. Hence, it is not necessary to fabricate articles from specialty polymers but simpler, cheaper, and more convenient to apply a surface treatment of articles made from commonly used relatively cheap polymers. In this case, only thin surface layer several nm to several μm in thickness is to be modified and direct fluorination (treatment with mixture of F₂ and other gases) can be effectively used. For our research we have chosen common widely used polymers. We targeted to improve hydrophobicity/hydrophylicity, adhesion properties and surface conductivity of polymers. For the first time modification of the surface of high density (HDPE), low density (LDPE) and ultrahigh molecular weight polyethylene (UHMWPE), polypropylene (PP), polyethylene terephthalate (PET) and polyvinylchloride (PVC) was performed by direct fluorination followed by a grafting of acrylic acid, styrene, acrylonitrile, vinylidene chloride, aniline and thiophene from the gas phase. Aniline grafting was studied to improve surface conductivity of polymers. Grafting of polymers was confirmed by ATR and MATR FTIR spectroscopy and energy-dispersive X-ray microprobe spectroscopy (cartography). AFM was used to study polymers surface. Influence of the nature of grafted monomers on the surface energy was studied. It was shown that depending on the nature of a grafted monomer hydrophobicity or hydrophilicity can be markedly improved. The hydrophobicity of modified polymers is not changed and is even improved with time contrary to virgin polymers. For the case of PP and UHMWPE grafting of styrene and acrylonitrile improved anti-graffiti properties (graffiti and pollutions from the polymer surface can be easier removed). For the case of HDPE and LDPE grafting of styrene and acrylonitrile improved printability. Grafting of aniline did not improved electrical conductivity. The uniformity of grafted polymers distribution was investigated by energy-dispersive X-ray microprobe spectroscopy (cartography) for the first time.     

泡沫金属亲疏水性对T型小通道气液两相流相分离特性影响研究

小通道填充泡沫金属成为近几年强化换热方向的研究热点。以空气和水为工作介质，将PPI为10和20的泡沫金属分别填充到截面为2.5 mm×2.5 mm的T型小通道内，改变泡沫金属的亲疏水性，分别研究弹状流和环状流下气液两相表观流速及亲疏水性对相分离的影响机制。比较亲水、疏水处理及未处理这三种泡沫金属的分离特性发现：无论是弹状流还是环状流，分离效果最好的是亲水处理后的泡沫金属，其次是未经处理的泡沫金属，而进行疏水处理后的分离效果最差，填充泡沫金属的T型通道相分离效果要明显好于未填充的通道。对于亲疏水处理过的T型通道，无论是弹状流还是环状流，T型小通道内侧支管气相采出分率占优，液相采出分率随着液体表观速度的增加而降低，但气相表观速度对液相采出分率影响很小。而泡沫金属PPI的减小会降低气相采出分率，使分配效果更加趋近于均匀分布线。     

Design and optimization of zirconia functional surfaces for dental implants applications

Zirconia is becoming a promising solution for biomedical applications, namely for dental implants, due to its biocompatibility, and mechanical and aesthetical properties. Despite the constant developments in the dentistry field, strategies to promote an effective vascularization at the implant's surface and consequently improved osseointegration are still not enough.In this sense, with the aim of promoting the vascularization at the implant's surface, zirconia surfaces with micro-channels were designed and evaluated regarding their hydrophilicity and capillarity. A CAD/CAM system was used to design and produce the specimens and different techniques were used to characterize the surfaces. The obtained average surface roughnesses are in accordance with the literature for similar materials. Results revealed that the produced materials present high levels of hydrophilicity, whether in contact with water or FBS - Fetal Bovine Serum. Additionally, micro-channels with 200 μm of width and 100 μm of depth were the ones that presented higher capillarity, thus being promising solutions for the promotion of implants vascularization, and consequently improved osseointegration.     

Improving the hydrophilicity of polyethersulfone membrane by the combination of grafting technology and reverse thermally induced phase separation method

In this work, surface grafting modification technology was combined with reverse thermally induced phase separation (RTIPS) method in order to improve the structure and permanent hydrophilicity of polyethersulfone (PES) membranes. Acrylic solution with different concentrations was grafted on the surface of PES membranes while grafting temperature and grafting time were also varied. The modified PES membranes were characterized in all aspects. Attenuated total reflectance Fourier transform-infrared confirmed successful modification of the PES membrane by grafting acrylic acid. Scanning electron microscopy revealed that homogeneous porous top surface as well as spongy-like cross-section structure appeared in the membrane by RTIPS procedure. Moreover, porosity was affected by changes of acrylic acid concentration, grafting temperature, and grafting time. Atomic force microscopy showed that grafting acrylic acid gave a reduction in roughness of PES membrane. Combined with the decreased values of contact angle, the hydrophilicity and antifouling performance of the PES membrane were improved. The pure water flux and BSA rejection rate of the grafted PES membranes were remarkably improved for pure PES membrane and attained a maximum, which was 1,646.24 L/(m²h) and 94.5%, respectively. The long-term test demonstrated that grafting membranes exhibited outstanding elevated water flux recovery ratio (>85%).     

季铵化改性氨基聚硅氧烷的合成及应用性能

采用氯乙酸乙酯对N,N-二甲基-γ-氨丙基-γ-氨丙基聚二甲基硅氧烷(ASO-121)进行季铵化改性,合成了一种季铵化改性氨基聚硅氧烷(QASO-121)。利用红外光谱(IR)、核磁共振氢谱(1HNMR)、扫描电镜(SEM)、纳米粒度仪等仪器对QASO-121及其乳液进行了表征和纤维表面的成膜性分析,并讨论了氨值、黏度及硅乳用量对所整理织物应用性能的影响。结果表明,QASO-121乳液平均粒径为75.3 nm,电位为+21.2mV,且其在织物纤维表面具有良好的成膜性。经氨值为0.6 mmol/g、黏度为2.600 Pa·s、硅乳用量为4 g/L的QASO-121整理的布样,织物柔软性提高,亲水性增强,白度基本不变。将QASO-121与未季铵化ASO-121进行应用性能对比,发现两者整理织物的柔软性相近,但经QASO-121所整理织物具有良好的亲水性且富有弹性,其抗黄变性能也得到了改善。     

N-乙烯基吡咯烷酮接枝改性聚乳酸组织工程支架的制备与性能

利用热致相分离技术制备了N-乙烯基吡咯烷酮接枝改性聚乳酸(M-PLA)组织工程支架。在接枝率36%条件下,讨论了聚合物浓度、水/二氧六环比例和粗化温度对支架孔隙度和微孔结构的影响;并进一步探讨了在相同制备工艺条件下,不同接枝率对支架结构的影响,并对M-PLA支架的亲水性和蛋白粘附性能进行测试。结果显示,在一定接枝率下,支架孔隙度随聚合物浓度增大而降低;水的添加有利于规则孔径的形成;粗化温度降低,支架孔径和孔隙度提高。与PLA支架相比,随着接枝率提高,共聚物支架孔隙度变化不大,孔径略减小,但孔隙规整性和连通性较好,亲水性和蛋白粘附率明显增大,生物相容性提高。