首页 | 本学科首页   官方微博 | 高级检索  
相似文献
 共查询到18条相似文献,搜索用时 343 毫秒
1.
目的研究修饰微结构对疏水性材料表面浸润性的影响并指导制备超疏水表面。方法基于有限元软件建立了水滴在修饰不同微结构的疏水性表面的润湿模型,通过水滴表观接触角衡量分析了疏水材料表面修饰单一粗糙结构和复合粗糙结构对疏水性提升的效果,利用硅树脂掺杂微粒制备了不同粗糙度的疏水性涂层,涂层固化后测试其实际接触角大小,并与仿真结果对比。结果仿真结果显示,对水滴接触角为100°的表面修饰单一粗糙结构后,由于微结构形成的凹槽滞留空气,阻碍了水滴在表面铺展,使得水滴在表面的接触角增大至133°。在原微结构基础上修饰更小一级的微结构后,水滴在表面的接触角达168°,材料表面达到超疏水效果。实验中,随涂层表面粗糙度的提升,水滴在表面的接触角逐渐增大,掺混两种微粒的疏水涂层固化后,表面形成复合微观结构,水滴接触角达162°,与仿真结果拟合较好。结论在疏水性表面修饰微结构可显著提升其表面疏水性,修饰复合结构后可达到超疏水效果,此方法可用于实际工程制备超疏水表面。  相似文献   

2.
先用电化学刻蚀在铝表面加工出超疏水性所需的微纳米粗糙结构,再通过直流阳极氧化在微纳米结构表面形成氧化层,并在高锰酸钾和硫酸的混合溶液中进行电解着色,最后通过氟硅烷修饰降低表面能后即可获得彩色的铝基超疏水表面。对样品表面的微观形貌、化学成分及润湿性进行了表征,结果表明:当电解加工时间为4 min时,铝表面颜色较暗,其超疏水性一般,水滴与表面的接触角达到153.1°,滚动角为1°;当电解加工时间为3 min时,铝表面为黄褐色,有较好的疏水性能,水滴与表面的接触角达到157.2°,滚动角为1°。  相似文献   

3.
马宁  张鑫宇  孙岩  龙芳宇  孙凯伦 《表面技术》2023,(12):197-205+273
目的 提高TC4钛合金超疏水表面的疏水性、耐腐蚀性与力学性能。方法 首先选择化学刻蚀法对TC4钛合金进行处理制备出微米级结构,再采用阳极氧化法制备出纳米级结构,最终在试样表面制备出了具有微纳分级结构的超疏水表面。通过观察微观结构表面、Tafel测试、线性磨损试验、抗冲击性测试以及防冰性能测试,分别对H2O2刻蚀、强酸刻蚀、阳极氧化、H2O2刻蚀-阳极氧化和强酸刻蚀-阳极氧化制备的超疏水表面进行性能对比。结果 使用双氧水-碳酸氢钠混合溶液制备出的超疏水表面接触角为156.4°,滚动角为2.7°;硫酸-盐酸混合溶液制备出的超疏水表面接触角为153.1°,滚动角为7.6°;阳极氧化法制备的超疏水表面接触角为156.3°,滚动角为4.2°;双氧水-碳酸氢钠混合溶液刻蚀并阳极氧化处理后,表面接触角为157.6°,使用硫酸-盐酸混合溶液刻蚀并阳极氧化处理后,表面接触角为155.9°,二者滚动角均小于2°。复合方法制备的表面疏水性能优于单一方法制备的超疏水表面。超疏水试样的OCP都高于TC4钛合金,经过强酸刻蚀和...  相似文献   

4.
卢硕  沈士泰  张小雨  卫国英  朱本峰 《表面技术》2023,52(11):318-325, 365
目的 通过在纯铝表面构筑超疏水涂层,优化金属铝表面,并强化其应用性能。方法 采用阳极氧化法在铝表面构筑具有纳米孔洞的Al2O3薄膜,再利用全氟癸基三乙氧基硅烷修饰表面,得到超疏水复合涂层,并研究氧化电位和表面修饰时间对纳米结构的构筑及疏水性能的影响,研究超疏水复合涂层表面润湿性、防污、自清洁和抗结冰性能。结果 控制阳极氧化条件,在氧化电位为16~18V、氧化时间为1h时,得到1~2μm的“花瓣”聚集叠加成的多级粗糙结构。通过6 h的表面修饰,得到了接触角为163.6°的超疏水性复合膜层。进一步对该超疏水膜层的性能进行分析发现,经超疏水膜层修饰后铝具有优异的防污性能;相较于纯铝,经超疏水膜层修饰后铝片的电化学阻抗模值高达105?·cm2,而电流密度仅为1.81×10-9 A/cm2;在高温和低温环境下,超疏水膜层均能保持超疏水性能;经砂纸来回打磨200 cm后,膜层的接触角仍大于150°。结论 经阳极氧化纯铝得到具有多级粗糙结构的阳极氧化膜,并通过表面修饰可制备接触角高达163.6°的超疏水性复合膜层。该超疏水复合涂层具有优异的耐腐蚀性、自清洁性、耐污染性,以及良好的耐蚀性、机械稳定性和...  相似文献   

5.
目的寻找影响硅橡胶涂层疏水性的因素,并找到相应的提升改进方法。方法以液体硅橡胶为基体,通过燃烧橡胶条熏附、添加纳米SiO2粉末混合和喷洒纳米SiO2粉末附着这三种不同方式,来制备超疏水表面涂层。通过改变纳米粉末的加入方式、加入质量,研究疏水性的最佳条件。并通过光学显微镜测量静态接触角评价表面疏水性能,寻找影响其疏水性的因素。结果最佳的方法为熏烧的烟尘附于液体硅橡胶涂层表面,大多数试验样本出现超疏水特性,静态接触角最高可达159°,平均值150°,静态接触角提高40°以上;次之为均匀喷洒纳米SiO2粉末,部分试验样本出现超疏水特性,静态接触角最高为145°,平均值135.5°,静态接触角提高30°~40°;简单搅拌混合的提升效果最差,没有试验样本出现超疏水特性,静态接触角最高可达124°,平均值108.5°,静态接触角只提高5°~15°。结论构建超疏水涂层的关键在于能否成功构建出微纳米的二级微观结构,简单的物理混合、搅拌会使纳米粉末被覆盖掉,无法表现出其特性。涂层的疏水能力与接触周围的实际微观长度有关。  相似文献   

6.
采用溶胶-凝胶法于金属基片上制备了TiO2膜,经表面修饰低表面能物质1H,1H,2H,2H-十七氟癸基三甲氧基硅烷(FAS)后,呈现良好的超疏水性能,通过实验优化确定了最佳实验条件,得到最佳TiO2超疏水表面,其与水的接触角达到173.7°。并研究了聚乙二醇(PEG)含量、TiO2纳米粒子含量和烧结温度和时间对超疏水性能的影响。  相似文献   

7.
利用电化学沉积技术在碳钢基底上制备了Co-Ni过渡层,再通过双辉等离子表面合金化技术(DGPSA)在过渡层上沉积了Cr涂层,经全氟辛基三氯硅烷(PFTEOS)溶液修饰后,制备出了具有高黏附性的超疏水表面。利用扫描电镜(SEM)、EDS、X射线衍射仪(XRD)、X射线光电子能谱仪(XPS)、接触角测量仪、电化学测试等方法表征了涂层的形貌、物相组成、润湿性能、粘附性以及耐腐蚀性能,探究了DGPSA技术不同沉积时间对Cr涂层表面形貌和润湿性能的影响。结果表明,在沉积温度为750 ℃,沉积时间30 min 时,制备出了具有微纳米乳突状结构的高黏附性超疏水表面,水滴接触角达到159°,水滴在样品倾斜180°也不发生滚落。电化学测试结果证明制备的超疏水表面具有出色的耐腐蚀性能,对碳钢基底起到了良好的腐蚀防护作用。  相似文献   

8.
郭永刚  吕志  朱亚超 《表面技术》2023,52(3):352-359, 369
目的 研究水滴在超亲/超疏水图案化铝合金表面润湿性、滚动阻力各向异性和定向运输特性。方法 采用激光刻蚀和氟硅烷修饰的方法,加工出具有微网格图案的超疏水6061铝合金表面。在超疏水铝合金表面再次激光刻蚀加工出长方形、平行四边形和圆形的超亲水微流体通道。研究了亲水沟槽宽度和深度对超亲/超疏水表面各向异性润湿和各向异性滚动的影响,分析了重力作用下水滴沿微流体通道的运动情况。利用SEM、三维轮廓仪观察铝合金表面形貌。利用接触角测量仪观测水滴与表面的接触角与滚动角大小。利用高速摄像机观察水滴的运动情况。结果 水滴在超亲/超疏水铝合金表面表现出明显的润湿性各向异性和滚动阻力各向异性。10μL水滴在0.1 mm宽度的直线型沟槽上铺展,平行接触角θcp仅为93.9°;而垂直于线型沟槽方向,垂直接触角θcv却为152.6°。平行滚动角θrp为21.5°,而垂直滚动角θrv大于90°,水滴无法滚落。基于超亲/超疏水表面滚动阻力各向异性的特性,制备了依靠重力驱动实现微流体定向运输的铝合金表面。结论 亲水沟槽宽度对水滴在超...  相似文献   

9.
类蝴蝶翅膀表面微纳结构的制备及其疏水性   总被引:2,自引:0,他引:2  
在金属表面构筑微纳米粗糙结构后以低表面能物质修饰,可以获得超疏水的金属表面,对实现防水、防腐及表面自清洁等功能具有重要的意义。以钛片为基底,利用简单易行且低成本的喷砂-酸蚀法,对其进行粗糙化处理,并使用低表面能物质氟碳树脂进行表面改性,获得了超疏水性表面。测量了试样表面与蒸馏水的静态接触角,将试样置于空气、模拟海水、质量分数为3%的NaOH和HCl溶液中进行了耐环境测试,观察了试样表面的微观形貌。结果表明:在光滑的钛基底上用氟碳树脂修饰后,得到的疏水表面接触角仅为103°;而钛片表面经喷砂-酸蚀后,再利用氟碳树脂进行疏水化修饰,得到与水接触角为156°的超疏水表面。经表面粗糙化处理和低表面能物质修饰后得到的钛基底上形成了类蝴蝶翅膀表面微纳结构的蜂窝状超疏水表面,具有优异的耐环境性和良好的自清洁效果。  相似文献   

10.
目的为了实现超疏水表面在实际生产生活中大规模应用,研制了一种具有大面积、低成本、可设计性和无有机溶剂等优点的水性超疏水涂料。方法以纳米级的气相二氧化硅和水性氟碳树脂为主要原料,以水为溶剂,通过氟硅烷疏水改性后获得了一种具有自清洁效应的超疏水涂料,借助场发射扫描电子显微镜、接触角测量仪、延时拍摄等手段对其进行了表征。结果该水性涂料可喷涂于各种软硬表面获得超疏水表面,其接触角均大于150°,滚动角均小于10°。水滴撞击实验表明,树脂增强的超疏水涂料经总体积为600 m L的连续水滴撞击后,其静态接触角依然大于150°,滚动角依然保持在10°以内。经砂纸打磨40周期后,水滴依然可以从其表面滚落。结论研制了一种以水为主要溶剂且价格低廉的水性超疏水涂料,将其喷涂于各种软、硬基底上均可获得均匀的超疏水涂层。该涂层还可以通过添加水性树脂来有效地增强其机械稳定性。  相似文献   

11.
Hydrophobic/hydrophilic patterned TiO2 thin film was successfully fabricated on a glass substrate by a wet process. A micro-nano complex structure with a high roughness was fabricated by a layer-by-layer selfassembly and liquid phase deposition (LPD) method. To fabricate superhydrophobic TiO2 thin films, TiO2 nanoparticles were deposited on the surface of (PAH/PAA) thin film by a LPD method and the surface of TiO2 was modified by a hydrophobic treatment using fluoroalkyltrimethoxysilane. The RMS roughness and water contact angle of the prepared TiO2 thin film were ca. 65.6 nm and ca. 155°. The superhydrophobic surface exposed to UV light changed to a hydrophilic surface by the photocatalytic property of TiO2 to decompose a hydrophobic group. Finally, hydrophobic/hydrophilic patterned TiO2 thin film with a 300 ??m dot size was fabricated. The surface morphology, transmittance, surface roughness and water contact angle of the prepared thin films were measured by a field emission scanning electron microscope, an atomic force microscope, a UV-Vis spectrophotometer and a contact angle meter.  相似文献   

12.
The wetting behavior of molten pure Mg droplets on pure Ti substrate, a crucial phenomenon in the design of Mg matrix composites reinforced with Ti particles, was investigated by the sessile drop method. The contact angle was measured in high-purity argon (99.999%) at 1073 K. In particular, the effects of two important parameters on the contact angle were evaluated: Mg evaporation during the wetting test; and surface oxide film of the substrate. The calculation method to estimate the modified contact angle involved taking the morphological changes of the droplet outline due to the evaporation into consideration. By changing the thickness of the surface oxide films on the Ti substrate, it was possible to examine the wettability and the chemical reactions at the interface between the solidified Mg drop and the substrate were investigated by scanning electron microscopy–energy dispersive X-ray spectrometry analysis. At the initial wetting stage, a large contact angle with 95–110° was obtained, which depended on the reduction of TiO2 surface films by Mg droplets. When the molten Mg contacts an area of pure Ti after reduction, the contact angle suddenly decreased. The equilibrium value at the stable state strongly depended on the surface roughness of the Ti plate.  相似文献   

13.
超疏水涂层在防结冰、防腐蚀等领域具有广阔的应用前景,然而目前仍无法大规模制备稳定的超疏水表面。提出一种操作简单、成本低廉的方法,在铝合金基材上通过一步喷涂法制备出耐磨超疏水涂层。首先在铝合金基体表面涂覆环氧树脂粘结层,待其达到半固化状态时,喷涂硬脂酸修饰的微米 SiO2 和纳米 TiO2 粒子混合悬浮液,固化后该涂层与水的接触角为~ 155.4°,滚动角为~3°,实现了超疏水性。试验结果表明,该超疏水涂层具有较好的耐磨耐久性,在胶带剥离、砂纸摩擦、 紫外光长时间照射以及不同 pH 液滴等多种测试条件下仍具有良好的超疏水性。此外,此超疏水涂层在极端寒冷的天气下可以显著延缓水的冻结时间。环氧树脂和疏水颗粒的协同防腐作用使超疏水涂层在海水中表现出良好的防腐蚀性能。所制备的超疏水涂层还具有优异的自清洁特性,且因 TiO2 粒子本身的光降解性能,该涂层还可用于光降解污染物和净化水质。这种简单、环保的超疏水涂层在防结冰、防腐蚀等方面具有潜在的应用前景,可为克服传统超疏水表面使用耐久性差的问题提供解决思路。  相似文献   

14.
针对碳钢腐蚀电位相对更负、更容易发生腐蚀的特点,在Q235钢表面制备超疏水TiO_2/PDMS涂层以提高其耐蚀性能。采用表面活性剂分散纳米TiO_2并进行改性,然后与PDMS混合,用溶胶凝胶法在Q235钢表面制备有聚二甲基硅氧烷(PDMS)过渡层的TiO_2/PDMS超疏水涂层。借助扫描电镜(SEM)、接触角测量仪、红外光谱(FT-IR)及X射线衍射仪(XRD)表征其表面涂层的表面形貌、化学成分及疏水性能,用电化学试验和浸泡试验测试其防腐性。结果表明:TiO_2/PDMS涂层表面具有独特的微纳结构,与水的接触角达到154.3°;其腐蚀电位由碳钢的-0.77 mV正移至超疏水涂层的-0.24 mV,腐蚀电流密度则下降两个数量级,即从5.02×10~(-6)A·cm~(-2)下降至3.95×10~(-8)A·cm~(-2);超疏水涂层的交流阻抗值高于碳钢基底3个数量级。经过7 d的3.5wt.%NaCl溶液浸泡,超疏水涂层并未发生失重。制备的TiO_2/PDMS超疏水涂层具有超疏水效果和良好的长期耐腐蚀性。  相似文献   

15.
Cold gas spray (CGS) titanium coatings have been produced to obtain porous and rough coatings with enhanced mechanical performance. The coatings from optimal spraying conditions reached tensile strength values up to 40?MPa, shear strength up to 39?MPa and a loss mass of 37?mg/100 cycles in abrasive testing, values in accordance with the ASTM standards to be applied for orthopaedic joint prostheses. An innovative hierarchical structure (micro-nano) consisted of a TiO2 nanotubes top layer obtained by anodisation onto a CGS Ti coating. The present paper focuses on the characterisation of both surfaces, as-sprayed CGS Ti layer and double Ti-TiO2 layer, in terms of mechanical properties, surface topography and wettability (contact angle). There were not significant changes in micro-roughness, Ra~40?µm and Ra~30?µm, but a significant decrease in contact angle, from ≈26° up to 0°, was observed between these two structures. This behaviour indicates that the combination of the CGS?+?anodising results in promising high roughness superhydrophilic surfaces, ideal for biomedical applications.  相似文献   

16.
The wettabilities of the metallurgical slag, CaO−55.2 wt.%SiO2−15 wt.%Al2O3 on refractory oxides, Al2O3, SiO2 and TiO2 were investigated at temperatures of 1350, 1400 and 1470°C. Contact angle measurements were performed using a combination of the sessile drop method and the X-ray fluoroscopic technique. The contact angle was obtained from the numerical solution of the Young-Laplace equation. The steady contact angles obtained were 31°, 24°, and 15° for SiO2, Al2O3 and TiO2 at 1470°C, respectively. The spreading rate of the liquid slag was characterized by the formation of cognate interface between the liquid slag and solid oxide, and further enhanced by the formation of a diffuse layer around the slag drop at higher temperatures.  相似文献   

17.
Ti coating on A3 steel was successfully prepared by direct electrochemical reduction of high-velocity oxy-fuel (HVOF) thermally sprayed and room-temperature dip-coating titanium dioxide coating on A3 steel in molten CaCl2 at 850 °C. The interfacial microstructure and mutual diffusion between coating and steel substrate were investigated using scanning electron microscopy (SEM) and energy dispersive X-ray (EDX) spectroscopy. The results show that the precursory TiO2 coating prepared by HVOF has closer contact and better adhesion with the A3 steel substrate. After electrolysis, all of the electro-generated Ti coatings show intact contact with the substrates, regardless of the original contact situation between TiO2 layer and the steel substrate in the precursors. The inter-diffusion between the iron substrate and the reduced titanium takes place at the interface. The results demonstrate the possibility of the surface electrochemical metallurgy (SECM) is a promising surface engineering and additive manufacturing method.  相似文献   

18.
Hydrophobic titanium oxide (TiO2) film formed on metallic titanium substrate in hydrogen peroxide solution with a subsequent oxidation under air atmosphere. Component, microstructure, and hydrophobicity of the oxide film were characterized by X‐ray diffraction, scanning electron microscope, and water contact angle methods. Corrosion resistance tests were carried out in seawater solution at different heating temperature conditions. Electrochemical impedance spectroscopy techniques and polarization curves were used to study the changes and the corrosion resistance of the TiO2 film. The results demonstrate that the pre‐treated TiO2 film heated at 400 °C environment owns small special groove‐shaped structure on its surface, which induce higher hydrophobic capability, larger impedance, and better electrochemical stability than the film that was prepared at other temperatures or the Ti with nature formed oxidation film. It would be an ideal candidate as engineering material in deep seawater environment.  相似文献   

设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号