超高分子量聚乙烯纤维牵伸温度研究

超高分子量聚乙烯纤维只有经过多级牵伸,才能成为高强度、高模量的高性能纤维。在牵伸工艺中涉及到牵伸温度及牵伸倍率两个工艺参数。本文从牵伸温度角度出发,采用多级牵伸得到了高性能聚乙烯纤维,利用强伸仪、DSC等表征手段,系统地研究了各级牵伸温度对超高分子量聚乙烯纤维性能影响规律,探索最佳牵伸温度组合。本项研究表明,牵伸温度直接影响最大牵伸倍率,最终影响到纤维的力学性能,采用三级牵伸可以使纤维力学性能达到较高水平,最佳温度组合为137.5℃—147.3℃—147.3℃,纤维强度32cN.dtex-1。     

超高分子量聚乙烯膜轴向压缩变形结构的研究

继刚性聚合物经溶液液晶(如芳香族聚酰胺)或熔融液晶(如芳香族聚酯)纺丝制取高性能纤维获得成功后,利用冻胶纺丝等技术制取超高分子量聚乙烯(UHMW-PE)高性能纤维的研究已取得突破性进展。这类纤维具有伸直链结构,大分子沿材料拉伸方向高度取向和结晶,显示出优异的抗张性能,具有很大的拉伸强度和模量。     

超高分子量聚乙烯冻胶纺丝-拉伸纤维结构的研究

以煤油为溶剂,汽油为萃取剂,采用冻胶纺丝 拉伸技术纺制了超高分子量聚乙烯（ＵＨＭＷ ＰＥ）纤维．利用广角Ｘ 射线衍射（ＷＡＸＤ）试验、偏光显微镜（ＰＯＭ）观察等方法研究了拉伸过程中纤维结构的变化．结果表明,在拉伸过程中,纤维大分子折叠链向伸直链转变的同时,斜方结晶的堆砌密度增大,微晶尺寸分布变窄并趋于均匀,拉伸４０倍纤维的晶胞参数为ａ＝０７３２ｎｍ,ｂ＝０４９１ｎｍ,ｃ＝０２５４ｎｍ．在拉伸４０倍左右的纤维中还能观察到因大分子结晶晶面滑移而产生的折皱带结构．在作者研究条件下,观察不到折皱带结构对纤维整体的取向态和结晶态结构的影响．     

自增强高性能聚合物的成型工艺同力学性能间相关性研究——1.超高分子量聚乙烯的应力诱导结晶理论和其自增强作用

本文发展了一种高分子量聚合物熔融体的应力诱导结晶结构形态模型,它是由微晶聚集体(以下简称微区)-高分子链组网和缠结网的网络结构组成。基于上述模型,把二种网中的单个链组作为独立的统计单元和形变单元,计算了二种网中单个链组的末端距分布函数,进一步计算了二种网和总网的形变自由能。在此基础上,讨论了诱导结晶结晶机理和自增强聚合物网络自由能的依赖性,并着重地研究了超拉伸高聚物的起始熔点拉伸比间的关系。用超高分子量聚乙烯膜和超取向高密度聚乙烯纤维的起始熔点和拉伸比的实验数据进行处理,得到理论予期的近似直线关系,初步验证了聚合物网应力诱导结晶理论。     

含少量共聚组分聚乙烯熔体拉伸薄膜的形态结构

利用透射电子显微学(TEM)和示差扫描量热学(DSC)等方法研究了含少量丁烯-1组分(摩尔分数为0.64%)的聚乙烯共聚物(PE100)熔体拉伸高取向薄膜的形态结构. 结果表明, 在PE100熔体拉伸薄膜中, 除存在高取向片晶结构外, 还含有大量的纤维晶, 纤维晶平行于拉伸方向, 穿过几个片晶区, 平均直径约为12 nm. 模拟实验结果表明, 纤维晶的生成源于聚乙烯共聚物中的超高分子量组分, 但不同于传统意义上的伸直链纤维晶, 其形态特征应为晶桥结构. 由此提出了晶桥结构纤维晶模型, 该模型不但有助于深入理解和认识聚合物取向结晶机理, 同时也为该材料的高性能化提供了理论依据.     

液态氧化法处理超高分子量聚乙烯纤维

用液态氧化法对超高分子量聚乙烯纤维进行了表面处理,研究了处理介质、处理时间对超高分子量聚乙烯／环氧复合材料层间剪切强度的影响,用扫描电子显微镜、ＸＰＳ表面元素分析、毛细浸润法测接触角等方法探讨了纤维表面性能处理前后的变化,以及纤维与树脂的界面结合情况。     

聚乙烯串晶在单轴拉伸形变过程中的微结构变化和机理

本文采用电子显微镜和小角Ｘ－射线散射（ＳＡＸＳ）技术研究了含有串晶结构（Ｓｈｉｓｈ—ｋｅｂａｂ）的高密度聚乙烯（ＨＤＰＥ）／超高分子量聚乙烯（ＵＨＭＷＰＥ）共混物高取向膜在单轴拉伸过程中的微结构变化．深入探讨了拉伸温度对聚乙烯在形变过程中微结构变化的影响．室温拉伸时，聚乙烯串晶结构主要发生了解结晶过程；高温（１１５℃）形变时，主要表现为折叠链片晶直接转变为伸展链纤维晶的应变诱导结晶过程．     

等离子接枝处理超高分子量聚乙烯纤维

利用等离子接枝法对超高分子量聚乙烯纤维进行表面处理,在纤维表面产生活性官能团,并用紫外分析、红外分析探讨了纤维表面官能团的产生及变化。通过测定纤维复合材料层间剪切强度验证结构与性能的关系。     

高性能聚酰胺6纤维的制备技术进展

聚酰胺6纤维具有良好的综合性能如力学性能、耐热性、耐磨损性和耐化学药品性等,同时具有很高的理论模量,如果开发制备出高强高模纤维,其在军用纤维和纺织上应用前景非常可观。但是聚酰胺分子间很强的氢键作用制约了分子的取向和纤维的高倍拉伸,从而限制了制备高强高模聚酰胺纤维技术的发展。所以要拉伸得到高取向聚酰胺纤维,需通过减少链间氢键的数量来实现。许多研究者已经通过各种工艺技术提高最大拉伸比,如增塑剂法、干法纺丝、冻胶纺丝、湿法纺丝、区域拉伸和退火等。鉴于已经通过冻胶纺丝法制备出了超高分子量聚乙烯纤维,因此目前冻胶纺丝法制备高强高模聚酰胺纤维具有较大的可行性。本文将介绍各种制备聚酰胺6纤维的工艺技术,主要突出冻胶法制备聚酰胺6纤维的技术。     

改性UHMWPE纤维/乙烯基酯树脂复合材料的研究

超高分子量聚乙烯纤维在过氧化物引发下,通过硅烷进行接枝改性。研究了改性纤维／乙烯基酯树脂复合材料的界面性能。采用层间剪切强度、扫描电镜、红外光谱(ATRIR)及浸润性测试等分析手段表征了接枝改性的效果。结果表明,经过硅烷接枝改性,改善了超高分子量聚乙烯纤维对乙烯基酯树脂的浸润性,提高了纤维与基体之间的粘结性,使复合材料的层间剪切强度大幅度提高。     

Centrifugally spun poly(ethylene oxide) fibers rival the properties of electrospun fibers

Centrifugal force spinning (CFS), also known as centrifugal spinning, forcespinning, or rotary jet spinning, provides considerably higher production rates than electrospinning (ES), but the more widespread use of CFS as an alternative depends on the ability to produce fibers with robust thermal and mechanical properties. Here, we report the CFS of poly(ethylene oxide) (PEO) fibers made using a spinning dope formulated with acetonitrile (AcN) as the volatile solvent, and we describe the thermal and mechanical properties of the centrifugally-spun fibers. Even though the formation, diameter, and morphology of electrospun and centrifugally-spun PEO fibers are relatively well-studied, the article presents three crucial contributions: the pioneering use of PEO solutions in AcN as spinning dope, characterization of crystallinity and mechanical properties of the centrifugally-spun PEO fibers, and a comparison with the corresponding properties of electrospun fibers. We find that fiber formation occurrs for the chosen CFS conditions if polymer concentration exceeds the entanglement concentration, determined from the measured specific viscosity. Most significantly, the centrifugally spun PEO fibers display crystallinity, modulus, elongation-at-break, and fiber diameter that rival the properties of electrospun PEO fibers reported in the literature.     

海洋生物质纤维材料的开发与研究

海洋生物质多糖拥有来源丰富可再生、可生物降解、快速的凝胶性能和良好的生物相容性等优异性能,被广泛应用作药物缓释、组织工程支架、医用敷料等领域,但国内外对于其在功能纤维的制备和应用等方面的研究尚处于初级阶段。结合本课题组已经取得的海洋生物质纤维制备的成果,本文对具有代表性的海洋生物质纤维材料——海藻酸盐纤维和卡拉胶纤维的...     

Gel spinning of poly(vinyl alcohol) from dimethyl sulfoxide/water mixture

Gel spinning of poly(vinyl alcohol) (PVA) was attempted from the PVA dope prepared from the mixture of dimethyl sulfoxide (DMSO) and water. The DMSO/H₂O = 80/20 (w/w) mixture and methanol were found to be the best solvent for the spinning dope and the coagulant, respectively, to give PVA fiber with the highest drawability. PVA fiber with the highest strength and Young's modulus were obtained from the undrawn gel fibers when subjected to hot two-stage drawing under conditions such as to produce maximum drawability. Furthermore, higher draw ratios of PVA fiber were attained at 6 wt % dope by lowering the coagulating temperature of methanol. In the present work, the highest tensile strength (2.8 GPa) and the highest Young's modulus (64 GPa) were realized, when the spinning dope was prepared from PVA with DP of 5,000 and the DMSO/H₂O (80/20) mixed solvent to have the PVA concentration of 6 wt %, the coagulating temperature of methanol was ?20°C, and the two-stage drawing was carried out at 160 (first) and 200°C (second). The PVA fiber prepared under this gel spinning condition could be elongated to 45 times draw ratio. The very high drawability of PVA fibers obtained from the DMSO/H₂O (80/20) mixture dope was ascribed to the ability of the DMSO/H₂O mixture to promote gelation. © 1994 John Wiley & Sons, Inc.     

Improvement of the spinning electrophorometer for zeta potential measurements

In this study, bubbles are held by centripetal force at the center of a rotating cylinder filled with an aqueous solution. Their velocities along the axe of rotation, after application of an electrophoretic force, are used for the calculation of the so-called electrokinetic potential. But this process necessitates the elimination of the electro-osmosis which occurs on the interior sides of the glass cylinder by superposing a concurrent force on the bubble. Efficiency of DEAE-Dextran reticulated with 1,4 Butanediol Diglycidyl Ether can be tested by the observation of a cloud of latex microspheres injected in the interior of the tube and allowed to move in respect with the application of an electric field. The experimental control of these velocity profiles proves the adequacy of the polymer for many cases such as surfactant solutions, presence of electrolytes, utilization with moderate pH.The dynamic interpretation of the electrophoretic motion of bubbles is possible by considering that small ones behave like rigid spheres moving in a rotating fluid. In the second part of this paper and in a previous publication, we have experimentally proved that the use of the theoretical expressions of the forces involved for rigid spheres is justified for small bubbles. So, the electrokinetic potential can be expressed versus the velocity, leading to possible interpretations of the adsorption on gas-water interfaces.     

聚苯撑苯并二噻唑的纺丝工艺研究

对聚苯撑苯并二噻唑（PBZT）的纺丝采用了“干喷湿纺”新技术，连续纺出了高强度、高模量的PBZT纤维。研究了PBZT的溶液浓度、PZT分子量、纺丝时空气层高度、纺丝温度和拉伸比对所纺出PBZT纤维力学性能的影响，找到了最佳纺丝工艺条件。     

Influence of the draw ratio on the tensile and fracture behavior of NMMO regenerated silk fibers

The tensile properties and fracture surfaces of N‐methylmorpholine‐N‐oxide (NMMO) regenerated silk fibroin fibers produced with a range of draw ratios has been characterized and related to their microstructure with data obtained from Raman spectroscopy and birefringence measurements. The spinning process allows control of two different draw ratios, coagulation, and postspinning, and it has been found that the microstructure and the properties of the fibers can be modified by the proper combination of both draw ratios. NMMO regenerated silk fibroin fibers subjected to postspinning drawing yield tensile properties comparable to other regenerated fibers and strain at breaking comparable to natural Bombyx mori silk fibers. Tensile strength; however, is still significantly lower than that of natural fibers. © 2007 Wiley Periodicals, Inc. J Polym Sci Part B: Polym Phys 45: 2568–2579, 2007     

桑蚕丝腺体和丝纤维中金属离子的含量

用不同的测试方法, 即质子诱导X射线发射(PIXE)、电感耦合等离子体质谱(ICP-MS)和原子吸收光谱(AAS)对桑蚕丝腺体和丝纤维中金属元素的含量进行了详细的表征. 结果表明, 在桑蚕丝腺体和丝纤维中含有钠、镁、钾、钙、铜、锌、铁、锰八种金属元素, 同时还可能含有微量的铷和锶. 这些金属元素在丝腺体和各种丝纤维(蚕茧丝、强拉丝和脱胶丝)中的含量都有所变化, 而这些变化可能与之在成丝过程(丝蛋白的构象转变过程)中所起的作用有关.     

Formation of a large‐scale shish‐kebab structure of polyoxymethylene in the melt spinning and the crystalline morphology evolution after hot stretching

Polyoxymethylene (POM) fiber was produced by melt spinning with a high take‐up speed, which imposed a strong flow field. An unexpected formation of a shish‐kebab morphology with multiple shish of POM fibers was reported for the first time. This morphology is a large‐scale shish kebab with a diameter of 10.5 µm. Further orientation of the POM fiber was obtained by hot stretching twice at 160°C. Two crystalline morphology evolution processes were also observed: (i) the process from the large‐scale shish‐kebab to the deformed small shish‐kebab and (ii) the process from the deformed small shish‐kebab to the perfect whiskers. Compared with the melt spinning fiber, fiber tensile strength with first and second hot stretching increased by 976% and 1705%, respectively. The crystalline melting behavior of fibers significantly changes after the first and second hot stretching. The flow field induces a large number of extended chain crystals. Copyright © 2014 John Wiley & Sons, Ltd.     

Sensing the Anti-Epileptic Drug Perampanel with Paper-Based Spinning SERS Substrates

The applications of SERS in therapeutic drug monitoring, or other fields of analytical chemistry, require the availability of sensitive sensors and experimental approaches that can be implemented in affordable ways. In this contribution, we show the production of cost-effective SERS sensors obtained by depositing Lee-Meisel Ag colloids on filter paper either by natural sedimentation or centrifugation. We have characterized the morphological and plasmonic features of the sensors by optical microscopy, SEM, and UV-Vis spectroscopy. Such sensors can be used to quantify by SERS the anti-epileptic drug Perampanel (in the concentration range 1 × 10⁻⁴–5 × 10⁻⁶ M) by spinning them during the micro-Raman measurements on the top of a custom device obtained from spare part hard disk drives. This approach minimizes laser-induced heating effects and allows averaging over the spatial non-uniformity of the sensor.     

High speed melt spinning of poly(L-lactic acid) filaments

Poly(L-lactic acid) filaments were prepared by high speed melt spinning at take-up velocities up to 5000 m/min. The crystallinity, birefringence, tensile strength, Young's modulus and yield strength all exhibit maxima at take-up velocities between 2000 and 3000 m/min. The boiling water shrinkage exhibits a minimum in this range. The maximum tensile strength of the as-spun filaments was 385 MPa and the maximum modulus was 6 GPa. © 1998 John Wiley & Sons, Inc. J Polym Sci B: Polym Phys 36: 1005–1012, 1998