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1.
通过Wilhelmy吊片研究了CF4/CH4混合气体等离子体处理的PET浸水表面的动态行为。结果表明,处理后的PET浸水后表面憎水性下降,这是幅地表面含氟基团向体相的高速翻转及含氟链段向相缓慢迁移的缘故。  相似文献   

2.
玻璃粉在陶瓷化硅橡胶中的应用   总被引:1,自引:0,他引:1  
陶瓷化高分子材料具有优异的阻燃和防火性能,在国外已经有公司制备了这种材料来代替传统的防火材料。以硅橡胶为基体,通过添加玻璃粉,制备了一种陶瓷化高分子材料,研究了玻璃粉用量对硅橡胶力学性能和电学性能的影响,通过SEM观察了瓷化物表面和断面的形貌。结果显示,瓷化物表面比较致密,气孔较少,有一些玻璃相形成;断面存在大量气孔,具有较好的瓷化性能,瓷化物致密而又坚硬,可以抵抗至少1000℃的高温。随着玻璃粉添加量的提高,硅橡胶的流动性变差,硫化速率加快,拉伸强度和断裂伸长率都有不同程度的下降,邵氏硬度A一直上升,体积电阻率和表面电阻率则都呈现出先增大后减小的趋势。  相似文献   

3.
为明确空间级硅橡胶的化学组成及填料添加对材料物理性能的影响, 采用填料复合方式制备硅橡胶高聚物材料, 并通过化学成分测试、 原子氧暴露试验及力学性能测试等研究其结构组成与物理性能. 经微观粒径测试得出硅橡胶中白炭黑填料粒径主要分布在8~16 μm; 经傅里叶变换红外光谱(FTIR)、 核磁共振波谱( 1H NMR和 29Si NMR)和溶胶凝胶渗透色谱(GPC)测试得出硅橡胶中含有Si—Me, Si—Ph, Si—O—Si等基团和甲基、 苯基等官能团, 其分子量分散系数为1.56, 并进一步推断出硅橡胶的分子结构及基胶与交联剂的反应类型为脱羟胺型; 经原子氧暴露试验及力学试验证实, 与未改性白炭黑填充的硅橡胶高聚物材料相比, 经硅烷改性白炭黑填充的硅橡胶高聚物材料表现出更好的抗原子氧性能, 动态力学测试后储能模量高54%, 并具有更好的应力应变响应性能. 研究结果表明, 采用表面改性处理方式可增强填料与硅橡胶基质的相互作用, 从而提高填料复合型硅橡胶高聚物材料的抗原子氧性能及综合力学性能.  相似文献   

4.
含氟丙烯酸酯-苯乙烯共聚物的制备及其表面性能的研究   总被引:4,自引:0,他引:4  
研究了聚合工艺、含氟丙烯酸酯类单体种类和用量、苯乙烯和自由基引发剂用量及硅烷偶联剂、催化剂等因素对含氟丙烯酸酯-乙烯共聚物表面性能的影响。结果表明:聚合工艺、含氟丙烯酸酯类单体种类和用量对共聚物表面的憎水性能有显著的影响;采用延时滴加含氟丙烯酸酯类单体可提高共聚物膜表面的憎水性;随含氟丙烯酸酯类单体侧链含氟烷基的链长和氟原子数及含氟单体用量的增加,共聚物水接触角增大,吸水率下降;共聚物薄膜的硬度则与含氟丙烯酸酯类单体中α-取代基、侧链含氟烷基的链长和用量、苯乙烯用量、引发剂浓度等相关;硅烷偶联剂和催化交联剂的加入可提高共聚物薄膜的强度。  相似文献   

5.
采用传统自由基共聚合方法合成了新型的含氟大分子单体PFMA-MA,并将其与甲基丙烯酸甲酯(MMA)、丙烯酸异丁酯(IBA)和γ-甲基丙烯酰氧基丙基三甲氧基硅烷(MPTS)进行自由基共聚合成了长氟链丙烯酸酯共聚物(ACLC)。对该聚合物的表面性能以及本体性能进行了研究。结果表明,少量的PFMA-MA便可使得到的共聚物ACLC的憎水性大幅度提高。通过X射线光电子能谱(XPS)研究大幅提高憎水性的机理,结果表明ACLC中的长氟链段具有强烈的迁移特性,氟原子富集于表面,使得材料憎水性得到提高。ACLC具有优异的附着力、硬度和低吸水率。含长氟侧链梳形丙烯酸酯共聚物有望应用在疏水、防水涂层材料等领域。  相似文献   

6.
采用环境扫描电子显微镜(ESEM)观测了蝴蝶翅膀的微观结构, 揭示了蝴蝶翅膀颜色的各向异性特征. 采用高速摄像仪实时动态观察了蝴蝶翅膀的水凝结浸润特性, 分别探究了蝴蝶翅膀在水平、 不同倾斜角度以及在振动条件下的水凝结的憎水性. 基于微观结构, 对蝴蝶翅膀的水凝结憎水特性进行机理阐述. 定量描述了其表面的黏滞特性, 并基于蝴蝶翅膀的微观结构效应阐述了翅膀表面水凝结的憎水性机制.  相似文献   

7.
本文设计了一种适合于科学研究用的,可以在较大范围内改变输出频率和功率的电晕放电发生器,阐述了此发生器的设计原则和性能特点,并通过接触角测定,内反射红外、扫描电镜和重量分析等手段,研究了高密度聚乙烯(HDPE)经电晕放电处理后表面形态及性能的变化、证实了多种气体均能在较短时间内使高密度聚乙烯的润湿性明显提高,含氧气体或非含氧气体都能对HDPE表面进行刻蚀,但它们有不同的刻蚀机理、含氧气体的放电处理可把含氧基团引入HDPE表面,且改变了HDPE表面刻蚀过程。  相似文献   

8.
本文采用接枝量测定、ATRIR和ESCA研究了电晕放电引发丙烯酸表面接枝LDPE薄膜,实验结果表明:电晕放电能有效地引发丙烯酸在LDPE薄膜表面的接枝聚合反应,随反应时间延长、反应温度提高和丙烯酸单体浓度增大,表面接枝量增大。当丙烯酸浓度为20%、聚合温度为70℃、反应15小时时,经电晕放电处理72秒后的LDPE薄膜表面接枝量高达22055μgcm2。  相似文献   

9.
分析了聚酯薄膜经空气电晕等离子体辐照处理后,其表面组成和形貌的变化。结果表明,聚酯薄膜表面的活性基团在亲水环境中更倾向于迁移至表面,而不是向次表面或者基材本体内迁移。薄膜表面CO和O—H的引入量随电晕辐照强度的增加而增大,XPS结果表明,C—O、CO和OCO的总含量增大,O1s谱图中新峰的结合能为532.49 eV,对应于聚酯薄膜表面过氧化物的—O—O—键。原子力显微镜研究表明,聚酯薄膜经电晕辐照后,表面形成离散的球状颗粒,表面粗糙度变化范围在10 nm左右。  相似文献   

10.
通过Wilhelmy吊片法研究了CF4/CH4混合气体等离子体处理的PET浸水表面的动态行为.结果表明,处理后的PET浸水后表面增水性下降,这是由于表面含氟基团向体相的高速翻转及含氟链段向体相缓慢迁移的缘故.  相似文献   

11.
This paper describes the loss and recovery in the hydrophobicity of unfilled high temperature vulcanized silicone rubber (HTV-SR) resulting from corona discharge. In this study, HTV-SR specimens were exposed to corona stress generated by a parallel needle-plane electrode system, and physicochemical analyses on the surface layer of SR before and after corona discharge treatment were carried out by using Fourier transform infra-red (FTIR) spectroscopy, scanning electron microscopy (SEM) and X-ray photoelectron spectroscopy (XPS). It is demonstrated that hydrophilic OH groups that are by-products of ageing can be formed instead of hydrophobic CH3 groups on the surface of aged SR and the corona discharge plays an important role on the temporary loss of hydrophobicity. After a substantial period of ‘rest’, the hydrophobic recovery of SR results from the diffusion of low-molecular weight (LMW) silicone fluid from the bulk onto the aged layer.  相似文献   

12.
Surface restructuring in ambient air of medical grade silicone rubber surfaces modified by repeated RF plasma treatments using various discharge gases including oxygen, argon, carbon dioxide and ammonia, was studied quantitatively. From advancing and receding water contact angle data, the fraction of the surface covered by mobile and immobile polar groups, and a characteristic time constant of the restructuring process were calculated. For argon plasma treated surfaces, the fraction of immobile polar groups increased with repeated plasma treatments, but remained relatively constant for samples repeatedly treated by an ammonia plasma. The use of an oxygen plasma only yielded incorporation of mobile polar groups but not of immobile polar groups. The increase in the restructuring time constants of argon and ammonia plasma treated silicone rubber with the number of plasma treatments suggested enhanced crosslinking of the silicone rubber by these plasmas. In contrast, when an oxygen plasma was repeatedly used, the restructuring time constant decreased suggesting chain cleavage by an oxygen plasma. Tentatively, the carbon dioxide plasma treatment of silicone rubber may initially (up to 3–4 repeated treatments) yield chain cleavage, while the occurrence of crosslinking is indicated after more repetitions.  相似文献   

13.
The effect of electrolyte conductivity on the partial arc discharge development between two electrolyte electrodes on a silicone rubber sheet surface was investigated. Tests were executed by placing the salt-waterlogged glass-filter paper on a silicone rubber sheet to simulate a polluted electrolyte layer, and partial arc discharges with a constant current value of 10 mA were observed. It was found that the formation of an arc channel and a temperature distribution on the sample surface varied with the electrolyte conductivity. In addition, the relation between the electrolyte conductivity and the weight loss due to the heat erosion of specimens was also investigated by a 3D morphological observation and a simulated calculation. The partial arc discharge did significantly not influence on the sample surface erosion under serious polluted conditions. In contrast, the severest erosion appeared under the light pollution with comparatively lower conductivity of the electrolyte electrodes.  相似文献   

14.
采用流变学方法研究了双组分加成型硅橡胶在不同聚氯乙烯(PVC)表皮上的固化动力学,并利用红外光谱、核磁共振波谱、电感耦合等离子体质谱仪等手段分析了PVC表皮成分,以确定导致双组分加成型硅橡胶不固化的具体原因。 结果表明,PVC表皮中导致硅橡胶不固化的主要元素为P元素。 在固定硅橡胶厚度为1 mm的情况下,当PVC表皮中的P元素质量分数低于3×10-3%时,浇注在其上的双组分加成型硅橡胶依然能固化;而当PVC表皮中的P元素质量分数超过约2.4×10-2%时,虽然浇注在其上的双组分加成型硅橡胶的中间层依然能固化,但与PVC表皮接触部分的硅橡胶不固化,且不固化层厚度随P元素质量分数增加而增加。 本文还研究了在P元素质量分数低于3×10-3%的PVC表皮上,降低硅橡胶厚度至微米级时的固化行为,在P元素质量分数低于3×10-3%的PVC表皮上,当硅橡胶厚度低于2 μm时,硅橡胶出现不完全固化现象。 双组分加成型硅橡胶在含有P元素的PVC表皮表面的固化行为主要是由硅橡胶样品中铂催化剂总含量及PVC表皮中的P元素含量确定的,同时也会受到双组分加成型硅橡胶反应速率以及铂催化剂、P元素在硅橡胶中的扩散速率的影响。  相似文献   

15.
质子辐照对有机硅树脂增强甲基硅橡胶的性能损伤及机理   总被引:3,自引:0,他引:3  
硅橡胶具有优良的电绝缘性以及耐高低温、耐电晕、耐化学腐蚀、耐大气老化、耐臭氧和耐辐射等性能,近年来在航天领域得到了广泛应用.在宇宙空间的带电粒子如质子、电子等的辐照作用下,硅橡胶会发生性能退化,其质损率上升,产生析气现象,从而直接影响航天器的可靠性和寿命.自80年代以来,人们就对不同辐照源及不同粒子注量对硅橡胶材料的影响进行了研究,但直到近几年才将研究热点转向辐照场中硅橡胶的性能退化及微观结构的演变规律,其辐照环境大多集中于γ射线、Si^+和F^+离子、He^2+离子等.对于空间环境下带电粒子辐照对硅橡胶材料的影响,国外由于相应的研究工作保密性强,报道甚少;国内哈尔滨工业大学则对我国自行研制的白炭黑增强空间级甲基硅橡胶质子辐照作用后的性能与微观结构的变化做了较为深入的研究。  相似文献   

16.
剥离型硅橡胶/黏土纳米复合材料研究   总被引:10,自引:0,他引:10  
利用层状硅酸盐制备有机 无机纳米复合材料是当前人们研究的热点[1,2 ] ,这类材料具有较常规聚合物 无机填料复合材料无法比拟的优点 ,可以明显改善高分子材料的物理机械性能、热稳定性、气体阻隔性、阻燃性、导电性、光学性等 .一般来说 ,聚合物 层状硅酸盐 (Polymerlayeredsilicate ,PLS)纳米复合材料可分为插层型和剥离型两种类型 .插层型纳米复合材料即聚合物插入到硅酸盐层中 ,硅酸盐在近程仍保持原有的有序晶体结构 ,在远程则是无序的 .对弹性体而言 ,硅酸盐含量在插层型杂化材料中的含量比较高 ,力学性能…  相似文献   

17.
The hemihydrate calcium sulfate whisker (HCSW) was modified by γ-(methacryloxy)propyl trimethoxy silane (KH570) and trimethylolpropane tris(3-mercaptopropionate) via wet modification and thiol-ene click reaction, and then the unmodified and modified HCSW were added into α, ω-dihydroxy polysiloxane (DPS) matrix to prepare silicon rubber composites. After the dual-surface modification, the surface of HCSW was transformed to hydrophobic, the hydration of whisker was obviously improved, and the whisker dispersed more evenly in the polymer. The mechanical properties, dynamic mechanical properties, and the medium resistance of the silicone rubber composite were compared. The tensile test shows that the silicone rubber shows better mechanical properties after adding the modified whiskers, among which HCSW-KH570-SH has the most significant reinforcement effect. Moreover, DPS/HCSW-KH570-SH shows the best medium resistance in toluene, gasoline, and water. The addition of modified whiskers can improve the storage modulus of silicone rubber significantly, while DMA and DSC show that the addition of modified whiskers can reduce the glass transition temperature of silicone rubber. The bound rubber indicates that the interface interaction between HCSW-KH570-SH and silicone rubber is the best.  相似文献   

18.
It is of great significance and challenge to efficiently improve the tracking and erosion resistance of silicone rubber along with the growing requirements in the field of outdoor high voltage insulation. In this work, we herein proposed an effective way to address this issue by incorporating vinyltriethoxysilane (ViTES) and layered Mg–Al double hydroxide (LDH) into high temperature vulcanized silicone rubber (HTVSR). ViTES/LDH notably enhanced the tracking and erosion resistance of HTVSR. With addition of 3.33 phr ViTES and 5.00 phr LDH, the anti-tracking performance of HTVSR reached the 1A 4.5 level, and the eroded mass was merely 0.3%. The results of scanning electron microscopy and equilibrium swelling showed that ViTES substantially improved the interfacial interaction between HTVSR and LDH and the crosslinking density of HTVSR, and enhanced the dispersion of LDH sheets in the HTVSR matrix. The possible synergistic suppression mechanism of ViTES/LDH on the tracking and erosion of HTVSR was further studied and demonstrated by the plasma irradiation analysis, thermogravimetry and thermogravimetry-Fourier transform infrared spectrometry. It was indicated that under the high voltage arcing discharge, LDH facilitated the formation of a dense barrier layer consisting of bimetal mixed oxides on the HTVSR surface, exerting outstanding lamellar barrier effect. The further degradation and the generation as well as development of electrical tracking were efficiently suppressed. Our findings provided a new approach to fabricate silicone rubber with excellent tracking and erosion resistance.  相似文献   

19.
A model of the electron distribution in direct current corona plasmas is combined with a global chemistry model and a two-dimensional transport model to predict the rate of chemical vapor deposition of silicon dioxide on the discharge wire in both positive and negative discharges in dry air containing octamethylcyclotetrasiloxane. The gas-phase chemistry includes reactions to form atomic oxygen (O) and additional global reactions to form gaseous silicon dioxide precursors by the impact reactions of electrons and atomic oxygen with silicone molecules. Surface chemistry is approximated by a single step global reaction from gaseous to solid silicon dioxide. The rate coefficient between atomic oxygen and octamethylcyclotetrasiloxane is estimated from prior experiments to be on the order of 10–12 cm3/molecule-s. The effects of discharge polarity, current, wire radius and air velocity (Peclet number for mass transfer) on the deposition rate are considered. Deposition rates can be minimized by using positive coronas instead of negative coronas for Peclet number less than 18.5. At higher Peclet numbers, the deposition rate is slightly higher in positive corona discharges, but devices used indoors should continue to use the positive corona in order to minimize the production of ozone. The deposition rate in the positive corona is relatively insensitive to air velocity for velocities from 0.044 to 10 m/s–1 . However,it may be minimized by operating the corona with the lowest current that provides adequate performance (e.g., particle charging) and the smallest wire that provides adequate mechanical strength.  相似文献   

20.
Triboelectric nanogenerator (TENG) technologies have explosive development in the field of energy harvesting and self-powered sensing. As the key element of triboelectric devices, dielectric polymers have obtained much attention in recent years. The dielectric properties of polymer determine the output performance of TENG. In this paper, we take silicone rubber as an example of dielectric polymers, to study the properties of molecular structure influence on the dielectric properties and mechanical properties by the molecular dynamics simulation method. The free volume fraction, dielectric constant, and mechanical properties of silicone rubbers with different branch chains were calculated. The dielectric constant is highly related to the free volume distribution and the dipole moments of silicone rubbers with different amounts of branch chains. For fewer branch chains silicone rubber, the free volume distribution contributes most to the dielectric constant; for more branch chains silicone rubber, the dipole moment dominates the dielectric constant. Therefore, the silicone rubber ratio has a great influence on the dielectric constant of silicone rubber. With the increase of temperature, the dielectric constant of 2-chain silicone rubber increases at first and then decreases, and the maximum value is obtained near 300 K. Therefore, it is necessary to control the temperature when silicone rubber is used as a dielectric material. This work can be a guide for improving the dielectric properties of silicone rubber, and it provides a new approach to the optimal design of high-performance triboelectric nanogenerators.  相似文献   

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