流变光学方法研究结晶高聚物的形变机理(摘要)

用光学方法研究结晶高聚物的形变和流动过程称为流变光学(Rheo-opties)。通常研究结构用的光学方法与动态力学试验装置相结合,还可观察其动态形变过程中相应的结构变化。 X射线衍射法可以测定高聚物形变过程中晶粒的取向。我们发现:聚乙烯随拉伸程度的增长昌区的取向程度也增加,但晶区的取向滞后于非晶区的取向且随晶区取向的增加其非晶区的取向逐渐松弛。因此,     

半晶聚对苯二甲酸乙二酯中的受限非晶相

当半晶聚对苯二甲酸乙二酯 (PET)的结晶度 (Xwc)处于一定范围内时 ,其物理老化后在差示扫描量热(DSC)曲线上的玻璃化转变区有吸热双峰出现 .通过对此吸热双峰分别与完全非晶试样和具有相当高Xwc 的半晶试样物理老化后在DSC曲线上出现的吸热单峰的比较 ,表明半晶PET中存在两种性质极为不同的非晶区 ,即自由非晶区和受限非晶区 .动态力学热分析 (DMTA)曲线上显示的损耗正切 (tanδ)双峰进一步证实了这两种不同非晶区的存在 .这两种不同非晶区的产生是由于试样中晶粒对非晶相中高分子链段活动性的不同限制作用所致 .研究发现 ,对于由冷结晶得到的半晶试样来说 ,出现两种不同非晶区所需的Xwc 上下限都随结晶温度 (Tc)的升高而增高 .还发现 ,在物理老化过程中 ,虽然非晶相的总量基本保持不变 ,但部分自由非晶区却逐渐转变为受限非晶区 .上述实验结果很好地符合Struik的“扩展玻璃化转变”模型 .     

纳米掺铁二氧化钛的sol-gel法制备与表征 (Ⅱ)纳米掺铁二氧化钛的微晶特性与晶体生长

本文结合透电镜分析研究了sol-gel方法制备的纯二氧化钛和掺铁二氧化钛干凝胶的晶化过程,计算了在不同的煅烧温度下二氧化钛微晶的晶胸参数,晶粒度,畸变等参数的变化关系,应用非晶物质晶化晶核生长速率议程计算的昌粒生长活化能表明晶粒生长分为两个阶段,临界点大约为相变温度,纯的和掺铁的二氧化钛在两个阶段的晶粒生长活化能分别约为20．8kJ.mol^-1,70.9kJ.mol^-1和26．6kJ.mol^-1,78.8kJ.mol^-1.这个差别可能是由于相主过程首先发生在小晶粒上,导致小晶粒生长较为困难所致。     

纳米掺铁二氧化钛的sol-gel法制备与表征 (Ⅱ)纳米掺铁二氧化钛的微晶特性与晶体生长

本文结合透射电镜分析研究了 sol-gel方法制备的纯二氧化钛和掺铁二氧化钛干凝胶的晶化过程。计算了在不同的煅烧温度下二氧化钛微晶的晶胞参数,晶粒度,畸变等参数的变化关系。应用非晶物质晶化晶核生长速率方程计算的晶粒生长活化能表明晶粒生长分为两个阶段,临界点大约为相变温度。纯的和掺铁的二氧化钛在两个阶段的晶粒生长活化能分别约为 20.8kJ· mol-1,70.9kJ· mol-1和 26.6kJ· mol-1,78.8kJ· mol-1。这个差别可能是由于相变过程首先发生在小晶粒上,导致小晶粒生长较为困难所致。     

PET纤维晶区取向与非晶区取向的关系

本文用X—射线衍射方法测定了不同纺速的PET初生纤维在不同热处理条件下的晶区取向因子及非晶区取向因子,并探讨了它们的关系。实验表明,在低、中速纺时,通过定长热处理生成的晶区其取向因子取决于热处理前非晶区的取向因子,而在非定长热处理时,非昌区先解取向,所生成的晶区其取向因子取决于热处理后的非晶区取向因子;而在高速纺下直接生成的晶区其取向因子取决于纺速,而与热处理方式关系不大。     

聚苯硫醚纤维的抗张强度与工艺和结构的关系

以熔融纺丝法制备出不同结晶度的各向同性聚苯硫醚纤维作为样品,根据密度和声速测定值确定出PPS晶相和无定形相的本征横向声模量E0⊥,c(4.40 GPa)和E0⊥,am(1.99 GPa).利用密度梯度法测定出的结晶度Xc和X-衍射法测定的晶区取向因子fc,按照Samules模型计算出不同牵伸和定型工艺下制备的PPS纤维样品的非晶区取向因子(fam),在此基础上分析PPS纤维抗张强度与牵伸定型工艺参数、结构之间的关系.结果表明,PPS纤维的最佳牵伸温度及紧张热定型温度分别在90℃和190℃附近;提高PPS纤维的牵伸温度及紧张热定型温度可以增加纤维的结晶度,在一定范围内对纤维抗张强度的增加有促进作用;但较高的牵伸温度及紧张热定型温度不利于纤维非晶区取向的提高,造成PPS纤维抗张强度降低.牵伸倍数的增加可以有效提高PPS纤维的非晶区取向程度,抗张强度也随着增加.     

聚酰胺-6纤维拉伸特性的温度-速度换算

本文研究了拉伸温度、速度、高聚物晶型、低聚体及水分等因素对聚酰胺-6纤维拉伸特性的影响。认为纤维冷拉伸过程是结晶不完善部分——非晶区分子链段的运动;稍高于T_g温度拉伸,非晶区和晶区内不规整部分可能结晶;在更高温度拉伸明显地产生再结晶,其时主要是晶区的链段运动。低聚体的存在增加纤维的吸水量,这种增塑作用使聚酰胺-6纤维的T_g和再结晶温度大大下降。不同晶型对非晶区的制约作用不同因此有不同的拉伸特性。α晶型位能最低,结构稳定制约作用最强,较难拉伸;γ晶型位能较高,结构不稳定,较易拉伸且不易再结晶,生产纤维应当控制这种晶型以利于拉伸。应用时-温换算原理处理拉伸等温线与等速线结果得到总曲线;以T_g为参考温度并选择合理的常数得到W.L.F.方程如下: logα_T=-43.3(T_-T_g)/(374.8+T-T_g)利用总曲线可以很方便地力生产选择合理的拉伸工艺条件。     

二维红外光谱法分析聚酰胺-66晶区/非晶区结构

应用变温红外光谱法和二维红外光谱法对聚酰胺-66在303～393K范围内的晶区和非晶区结构及热稳定性进行研究。变温一维红外光谱和变温二阶导数红外光谱的试验结果表明,聚酰胺-66的晶区结构对温度变化较为敏感,而非晶区结构相对稳定。非晶区结构的热稳定性在二维红外光谱试验中得到进一步的证实。从聚酰胺-66的分子结构观察,随着温度的升高,其晶区结构(主要对应O=C-NH-)最先改变,而非晶区结构(主要对应-C-C-)则较为稳定。非晶区的异步二维红外光谱试验结果表明,其晶区结构的吸收波数为1 141cm-1(νamorphous-1)和1 138cm-1(νamorphous-2);而非晶区结构的吸收波数为939cm-1(νcrystal-1)和931cm-1(νcrystal-2)。对聚酰胺-66的非晶区结构和晶区结构还同时进行同步二维红外光谱试验,结果表明:随着温度的升高,两者的红外吸收峰的变化快慢顺序为931cm-1(νcrystal-2)1 141cm-1(νamorphous-1)939cm-1(νcrystal-1)1 138cm-1(νamorphous-2)。     

硬弹性聚丙烯纤维分子链的取向特征

硬弹性聚丙烯是在应变结晶和热结晶两个复合过程中形成的。利用双折射并结合广角X射线衍射（WAXD）等方法，研究了硬弹性聚丙烯在制备过程中晶相及非晶相分子链取向的变化，讨论了分了链的取向与硬弹性的关系。结果发现：降低熔体温度或提高熔体拉伸比可以提高晶相及非晶相分子链的取向，热处理时，晶相分子链的取向程度有所提高，而非晶相分子链的取向程度有所下降。在所研究的热处理温度的范围内，硬弹性聚丙烯的弹性回复率越高，晶相分子链的取向程度越高。     

硬弹性聚丙烯晶相和非晶相分子链取向的研究

本文用力学-振动光谱研究了硬弹性聚丙烯(HEPP)晶区和非晶区分子链在拉伸时取向的变化.我们发现在红外光谱中,1130—1190cm~(-1)波数范围内存在着三个峰,其中1167cm~(-1)处的峰是与结晶相长螺旋分子链相关的构象谱带,其谱带的强弱变化是与998cm~(-1)结晶谱带在拉伸时的变化趋势一致的.1159cm~(-1)谱带能够被归属于无定形谱带.而1152cm~(-1)处的峰也许是与短螺旋分子链构象谱带相关的.我们用计算机的二次微分、解卷积以及分峰程序测定了拉伸时HEPP晶区和非晶区分子链的取向函数,结果发现HEPP无定形分子链取向随拉伸比增加而增加,而晶区分子链的取向随拉伸比的增加先下降,直至拉伸比为1.5(第二次屈服点)后才逐渐增加.     

Rigid amorphous fraction in poly(ethylene terephthalate) determined by dilatometry

Volumetric thermal analysis of semicrystalline poly(ethylene terephthalate), PET, with different content of crystalline phase was carried out using mercury-in-glass dilatometry. The effect of crystals on the thermal properties of amorphous phase (glass transition temperature, T _g, thermal expansion coefficients, α) were determined. At cold-crystallization (106°C, up to 4 h), crystalline content of 2.4–25.3 vol.% was achieved. Increasing content of crystalline phase broadens the glass transition region and increases T _g. The change of thermal expansion coefficient during glass transition is lower than that predicted by the two-phase model, which indicates the presence of a third fraction — rigid amorphous fraction (RAF), whose content steadily increases during crystallization. However, its relative portion (specific RAF) is significantly reduced. Further significant decrease in specific RAF appears after annealing at a higher temperature.     

STUDY ON THE MECHANISM OF STAINING BY ALLYLAMINE / OsO_4 ON PET FILM

It was proposed that in the staining process allylamine diffuses into amorphous region of PET film, reacting slightly with ester bond on PET chain and connecting with it and remaining in the amorphous area, then OsO_4 reacts with C=C group in allylamine, deposits in that region and hence, increases the contrast between amorphous and crystalline regions.     

Thermally induced structural changes in low-shrinkage poly(ethylene terephthalate) fibers

This work studies the behavior of low shrinkage PET fibers during free-ends thermal annealing. The interest in this type of sample stems from the fact that it possesses an interesting structure characterized by the presence of crystalline and amorphous domains both in a highly extended and oriented state. Furthermore, thermal annealing is not able to produce a significant increase in the crystalline content. Thus, the lack of crystallization allows to isolate the effect of chain recoiling on the observed phenomena. To follow changes at molecular and microstructural levels, Fourier transform infrared spectroscopy with photoacoustic detection, differential scanning calorimetry, wide-angle x-ray diffraction and scanning electron microscopy techniques were employed. By their use, substantial structural changes in the amorphous and crystalline domains were found which, finally, were related to the macroscopical behavior of the material, mainly the observed shrinkage and the mechanical properties. © 1996 John Wiley & Sons, Inc.     

Morphology development and crystallization behavior of poly(ethylene terephthalate)/poly(trimethylene terephthalate) blends

The spherulite morphology and crystallization behavior of poly(ethylene terephthalate) (PET)/poly(trimethylene terephthalate) (PTT) blends were investigated with optical microscopy (OM), small-angle light scattering (SALS), and small-angle X-ray scattering (SAXS). The thermal analysis showed that PET and PTT were miscible in the melt over the entire composition range. The rejected distance of non-crystallizable species, which was represented in terms of the parameter δ, played an important role in determining the morphological patterns of the blends at a specific crystallization temperature regime. The parameter δ could be controlled by variation of the composition, the crystallization temperature, and the level of transesterification. In the case of two-step crystallization, the crystallization of PTT commenced in the interspherulitic region between the grown PET crystals and proceeded until the interspherulitic space was filled with PTT crystals. The spherulitic surface of the PET crystals acted as nucleation sites where PTT preferentially crystallized, leading to the formation of non-spherulitic crystalline texture. The SALS results suggested that the growth pattern of the PET crystals was significantly changed by the presence of the PTT molecules. The lamellar morphology parameters were evaluated by a one-dimensional correlation function analysis. The blends that crystallized above the melting point of PTT showed a larger amorphous layer thickness than the pure PET, indicating that the non-crystallizable PTT component might be incorporated into the interlamellar region of the PET crystals. With an increased level of transesterification, the exclusion of non-crystallizable species from the lamellar stacks was favorable due to the lower crystal growth rates. As a result, the amorphous layer thickness of the PET crystals decreased as the annealing time in the melt state was increased.     

双轴拉伸PET薄膜成膜过程非晶区分子取向的WAXS研究

本文将常应用于小的角度范围(29_(CuK_α)<50°)的结晶峰和非晶峰的计算机分峰法,推广到PET薄膜的广角度散射范围(2θ_(CuK_α)=5°—140°)。通过对分离出来的表征非晶区分子链间分布的非晶主峰特征参数的分析,探讨了在特定拉伸条件下非晶区分子取向在成膜过程的变化。     

Study of structural changes and mesomorphic transitions of oriented poly(ethylene therephthalate) fibers in supercritical CO2

Supercritical carbon dioxide (scCO₂), an environmentally friendly solvent, can change the fine structure of fibers depending on treatment temperature and pressure. Samples of partially oriented yarn (POY) PET fibers were uniaxially drawn below the glass transition temperature (T_g) and then exposed to scCO₂ under tension to induce morphological changes in them. The effects of draw ratio and scCO₂ exposure on the structural changes and mesomorphic transitions were evaluated. For this purpose, thermal characteristics of the structure, especially the rearrangement of polymer chains in the amorphous phase induced by cold-drawing and exposure to scCO₂, were evaluated by differential scanning calorimetry (DSC) and Fourier transform infrared (FTIR). The orientation factor of the fibers was measured using a polarizing microscope. The paracrystalline portion and the crystallite sizes of exposed samples were estimated by wide-angle X-ray diffraction. To evaluate the solubility of CO₂ molecules in the samples, density and fractional free volumes were also measured. A good correlation was obtained between the results obtained from various measurement techniques. Results showed that cold-drawing of PET fibers leads to a strain-induced crystallization and that exposure to scCO₂ changes the structure of the oriented PET samples. To investigate mesophase transitions, percentage of extended chains in the amorphous regions was calculated by analyzing the results of DSC and FTIR. Results showed that the amount of extended chains developing during cold-drawing in the amorphous regions decreased when exposed to scCO₂.     

Redrawing of oriented polyethylene film

Drawn and subsequently annealed polyethylene film was restretched along the original draw axis at various temperatures. The internal deformation was analyzed in terms of the structural parameters of a simplified model. The elementary deformations are the rotation of crystals around the b axis and shear at the crystal interface. The rigidity of the crystal plays an important role during extension; and as a result, disorientation of chains in the crystal occurs at high strain. At the same time, crystals deform in such a way that the crystalline chains tilt about the b axis along the (h00) plane. This deformation of the crystal is affected by temperature. The increase in long spacing with extension can be interpreted roughly by the changes in structural parameters. The strain in amorphous region in also discussed in relation to these parameters.     

在激光辐照下拉伸的聚对苯二甲酸乙二酯纤维的结构与性能

要提高聚对苯二甲酸乙二酯 (ＰＥＴ)纤维的力学性能 ,不仅要求分子链形成伸直链结晶 ,更主要的是增加晶区之间以及微原纤之间连接分子 (Ｔｉｅｍｏｌｅｃｕｌｅｓ)的数目及其取向程度[1,2 ] .研究表明 ,通过将拉伸工艺中的加热区域降低至 2ｍｍ ,可以使非晶态分子链更为伸展且规整排列[3 ] ,这样的非晶态结构可以更快地向结晶转化[3 ,4] ,容易形成伸直链结晶并增加连接分子的数目 .这种区域拉伸的实质是通过减小形变 (细颈 )区域而使形变速率显著提高 .采用ＣＯ2 激光辐照可以达到更高的形变速率 .这是由于ＣＯ2 激光的波长为 1 0 6μｍ ,…     

聚对苯二甲酸乙二酯的熔融双峰与形态

非晶PET等温结晶后,用DSC、WAXD、SAXS、密度和透射电镜等方法,考察了结晶PET在升温过程中的结构变化,进一步证实了过程中发生部分熔融再结晶;同时形态也起了明显变化:片晶增厚,片晶侧向尺寸增大,由节瘤状晶粒堆砌部分地转变为典型的片晶堆砌,构成片晶的微晶尺寸增大,晶体趋于完善,折迭表面的规则折迭增加。这样,在等温结晶时生成的结构状态转变为更稳定的形态,因而相应地在DSC曲线上出现两个熔融峰。     

FTIR spectroscopic analysis of poly(ethylene terephthalate) on crystallization

The vibrational spectrum of partially crystalline poly(ethylene terephthalate), PET, appears to be unduly complex in that the absorption bands are split into amorphous and crystalline modes and are sensitive to chain configuration and orientation. Assignment of the bands has accordingly proved to be difficult and lead to differences in interpretation. Two-dimensional infrared spectroscopy is a recent novel analytical technique in vibrational spectroscopy which can be used to interpret differences in the spectra with time or temperature accompanying changes in structure and morphology and has been used to analyze the development of crystallinity within a polymer in which amorphous regions are transformed into crystalline regions and involving changes in molecular configuration.Two-dimensional IR correlation spectroscopy has been successfully applied to these problems in the attempt to measure the fractional extent of crystallinity in PET as a function of time and crystallization temperature as well as changes to molecular configuration.