热释电流法研究聚对苯二甲酸乙二醇酯的Sub-T_g存放

测量了一系列在T相似文献   

热处理对尼龙1010固态结晶和玻璃态热松驰的影响

本文用DSC首先论证淬火尼龙1010试样在DSC曲线上出现的放热峰是冷结晶峰,然后研究淬火尼龙1010在不同热处理条件下,冷结晶峰和玻璃态热松驰峰的变化规律。实验结果表明,等温结晶时间较短,试样的固态结晶速率较快;等温结晶时间较长,固态结晶速率较慢,这可能与在Tg区域等温所形成的新氢键有关。当升高等温温度时,固态结晶速率加快。在低于Tg的不同温度退火,玻璃态热松弛峰的峰高及热焓在281K达最大值,进而确定对玻璃态热松驰影响最敏感的温度区间是277～284K。     

高效液相色谱峰压缩中灵敏度增加值与峰压缩因子的关系研究

以从塔板理论得到的色谱流出曲线为基础,推导了高效液相色谱(HPLC)双流动相分离场中实现峰压缩时,峰压缩因子(峰压缩后的半峰宽与未进行峰压缩时的半峰宽的比值)和峰高表示的灵敏度变化(峰压缩后的峰高与未进行峰压缩时的峰高的比值)的关系,结果表明峰高表示的灵敏度增加值等于峰压缩因子的倒数.并用色氨酸、香豆素、苯和2-硝基酚在不同速率差实现堆积时的相关参数进行了验证.实验结果表明,这些化合物在各个峰压缩条件下的峰压缩因子倒数和实际灵敏度增加值相等,实验结果与理论推导结果一致.考察了该关系式在实际样品测定中的应用,结果表明灵敏度增加值等于峰压缩因子的倒数,这也与理论部分的结果一致.     

环氧交联网T_g转变的tanδ-T曲线解析

本文系统地研完了预聚物分子量、固化剂配比和固化条件对环氧交联网T_g松弛内耗峰松弛时间分布的影响。本实验和理论研究结果首次证明了环氧交联网T_g松弛过程具有单一松弛时间描述的线性标准固体的特征,与预聚体分子量、固化剂配比和固化条件无关。此结果可用环氧交联网的两相结构特征加以解释。     

尼龙1012的Brill转变

作为一类重要的结晶性聚合物 ,尼龙在加热或冷却过程中的晶型转变 [1,2 ]一直为人们所关注 .其中对尼龙 66的晶型转变研究得最多 [3～ 6 ] .在加热过程中尼龙 66室温下三斜的α晶型转变为高温下的假六方晶型 ,尼龙 66的这一晶型转变称为 Brill转变 [3] .在变温 X射线衍射测试中可明显观察到 Brill转变 :室温下α晶型的两个强的衍射峰随温度升高逐渐靠近 ,并在某一温度下合并为一个峰 ,这一温度称为 Brill转变温度 .近年来研究表明 ,许多脂肪族的尼龙升温时均表现出 Brill转变 ,并且 Brill转变温度随尼龙结晶条件及其结构的不同而不同 [7…     

酯类基础油热氧化过程中的拉曼光谱分析

将DXR激光显微拉曼光谱仪与Linkam FTIR600控温台联用,测定了连续加热、恒温氧化过程中三羟甲基丙烷油酸酯(TMPTO)、偏苯三酸三异酸酯(TDTM)、己二酸二异辛酯(DOA)等酯类基础油的拉曼特征峰的变化规律,探讨了热氧化过程中酯类油分子结构的变化特点。研究发现,随着加热温度的提高,酯类基础油的部分拉曼峰的峰位与峰强均发生了明显变化;酯类基础油的甲基与亚甲基的C—H伸缩振动峰及亚甲基的剪式振动峰对温度很敏感,随着温度的升高发生了不同程度的峰强衰减,冷却后可基本恢复;C‖O振动峰随温度的升高变化不明显;TMPTO酯类基础油的C‖C双键伸缩振动峰随着温度升高逐渐向高波区移动冷却后可恢复,‖C—H和C‖C的伸缩振动峰强冷却后不能完全恢复;恒温下随着氧化时间的延长,TDTM和DOA基础油的拉曼峰无明显变化,与TMPTO基础油的‖C—H、C‖C及—CH2—相关的拉曼峰呈规律性衰减。因此可运用原位拉曼光谱法对不饱和酯类基础油中连续氧化进行监测。而原位光谱法对饱和酯类油和芳香酯类油高温连续氧化过程的监测具有一定的局限性。     

用热焓松弛行为研究聚苯醚和改性聚苯醚共混体系的相容性

用DSC分别探讨了苯酰化聚苯醚(PPO)(BA~(31.0)-PPO和BA~(43.4)-PPO)/PPO共混体系的热焓松弛变化规律与差异.发现已知是相容体系的BA~(31.0)-PPO/PPO在低于T_g等温退火过程中只出现一个吸热峰;典型的相容体系PPO/PS也表现出类似的行为.而未知相容性的BA~(43.4)-PPO/PPO在等温退火过程中出现两个吸热峰,此两峰的T_p值随退火时间的变化类似于各纯组分相应条件下的变化.电子显微镜结果表明,BA~(43.4)-PPO/PPO是相分离体系.因此对T_g非常接近的较刚性主链的PP0及其改性物的共混体系可用热焓松弛行为确定其相容性.     

用化学应力松弛法快速估算橡皮材料的贮存保险期

提出了一种用化学应力松弛法快速估算橡胶材料贮存保险期的方法。这种方法撇开动力学的复杂关系,用相对应力f/f_0来表征化学松弛过程所达到的阶段,进一步假设处在不同温度下达到某阶段时的松弛时间与温度间存在着 Arrhenius关系。因此以不同温度下达到某给定相对应力时的松弛时间对1/T作图应得到直线关系,由此外推即可求出室温下的松弛时间。 研究了松弛过程极不相同的丁基和丁腈橡胶。所有的实验结果支持了上述假设。     

高效液相色谱中苯甲醛的在线堆积研究及其应用

以乙腈和水为流动相,研究了苯甲醛在苯基柱和C18柱双柱串联体系中的在线堆积行为.结果表明,苯甲醛在苯基柱-C18柱组合体系中能实现有效堆积,且速度差越大堆积得越好.在实验最佳堆积条件下,堆积因子为4.6,峰高增加5.4倍,该堆积条件下保留时间,峰面积,峰高和半峰宽的RSD值分别为1.2%, 4.2%,3.4%和0.80%.将苯甲醛的在线堆积效应用于单胺氧化酶(MAO)酶活性测定样品,信噪比提高了6.9倍,检测灵敏度显著提高.实际样品测定中保留时间,峰面积,峰高,半峰宽,塔板数和信噪比的RSD值分别为0.1%, 4.6%,5.0%,0.7%,1.2%和4.67%,精密度满足分析测定的要求.     

环氧交联网Tg转变的tanδ-T曲线解析

 本文系统地研完了预聚物分子量、固化剂配比和固化条件对环氧交联网T_g松弛内耗峰松弛时间分布的影响。本实验和理论研究结果首次证明了环氧交联网T_g松弛过程具有单一松弛时间描述的线性标准固体的特征,与预聚体分子量、固化剂配比和固化条件无关。此结果可用环氧交联网的两相结构特征加以解释。     

热历史对已固化环氧树脂松弛行为的影响

<正> 环氧树脂是一种性能优良且应用广泛的高分子材料,近年来,人们对已固化环氧试样在玻璃化温度(T_g)以下贮存时,物理性能随时间而变化的物理老化现象进行了广泛的研究.Ophir等发现已固化环氧试样经淬火处理后,其T_g随贮存时间升高,认为是由于自由体积随贮存时间减小所致.Mijovic用不同的方法进行过类似的研究,发现淬火环氧试样的T_g随贮存时间降低,认为是由于试样中的内应力松弛所致.本文试图进一步搞     

The effect of water on the secondary dielectric relaxations in nylon 66

Dielectric data were taken on nylon 66 at several moisture levels at frequencies from 10 to 10⁵ Hz and temperatures from ?70°C to room temperature. Moisture increases the frequency and the peak height for the β relaxation and reduces its activation energy. The peak height of the γ relaxation is reduced by moisture and shifts to slightly higher frequencies with little change in activation energy. The β relaxation follows the pattern of Jonscher and Ngai for a cooperative many-body process. The γ relaxation is slightly broader than a Debye relaxation and approaches that model quite closely as the temperature is increased. The high-frequency end of the β relaxation overlaps the γ relaxation.     

An extended phase transition in crystalline L-cysteine near 70 K

An anomaly of heat capacity near 70 K was registered in the crystalline L-cysteine (orthorhombic polymorph) by adiabatic calorimetry as a small, 3-5% height, diffuse "jump", or a wide "hump" accompanied by the substantial increase in the thermal relaxation time. The Cp(T) dependence is characteristic for a transformation extended over a wide temperature range and sensitive to the thermal prehistory of the sample, that can be interpreted as nonsimultaneous changes in the dynamics and the orientation of the numerous thiol groups in the structure. The measurements of the cell parameters and cell volume on cooling suggest that a discontinuity in their values over the transition point exists.     

Saponin Stabilization via Progressive Freeze Concentration and Sterilization Treatment

Saponin is a biopesticide used to suppress the growth of the golden apple snail population. This study aims to determine the stabilized conditions for saponin storage. The maceration process was used for saponin extraction, and for saponin concentration, progressive freeze concentration (PFC) was used. Afterwards, stability analysis was performed by storing the sample for 21 days in two conditions: Room temperature (26 °C) and cold room (10 °C). The samples kept in a cold room were sterilized samples that undergo thermal treatment by placing the sample in the water bath. The non-sterilized samples were kept in room temperature condition for 21 days. The results showed that saponin stored in the cold room (sterilized sample) has low degradation with higher concentration than those stored at room temperature in stability analysis with the highest saponin concentration (0.730 mg/mL) at a concentration temperature of −6 °C and concentration time of 15 min. The lowest saponin concentration obtained by saponin stored at room temperature (non-sterilized sample) is 0.025 mg/mL at a concentration temperature of −6 °C and concentration time of 10 min. Thus, the finding concluded that saponin is sensitive to temperature. Hence, the best storage condition to store saponin after thermal treatment is to keep it in a cold room at 10 °C.     

Crystallization and melting of isotactic polypropylene in response to temperature modulation

Isotactic polypropylene (iPP) was crystallized using temperature modulation in a differential scanning calorimeter (DSC) to thicken the crystals formed on cooling from the melt. A cool-heat modulation method was adopted for the preparation of the samples under a series of conditions. The effect of modulation parameters, such as temperature amplitude and period was monitored with the heating rate that followed. Thickening of the lamellae as a result of the crystallization treatment enabled by the cool-heat method lead to an increase in the peak melting temperature and the final traces of melting. For instance, iPP melting peak shifted by up to 3.5°C with temperature amplitude of 1.0°C while the crystallinity was increased from 0.45 (linearly cooled) to 0.53. Multiple melting endotherms were also observed in some cases, but this was sensitive to the temperature changes experienced on cooling. Even with a slower underlying cooling rate and small temperature amplitudes, some recrystallization and reorganization occurred during the subsequent heating scan. The crystallinity was increased significantly and this was attributed to the crystal perfection that occurred at the crystal growth surface. In addition, temperature modulated differential scanning calorimetry (TMDSC) has been used to study the melting of iPP for various crystallization treatments. The reversing and non-reversing contribution under the experimental time scale was modified by the relative crystal stability formed during crystallization. Much of the melting of iPP was found to be irreversible.This revised version was published online in November 2005 with corrections to the Cover Date.     

Thermal conductivity of a polymerizing liquid

Thermal conductivity kappa of seven polymerizing liquids has been measured in real time at different temperatures, and calorimetry and dielectric spectroscopy of one liquid are performed to help interpret the results. As a covalently bonded linear chain or a network structure in the liquid grows, kappa of the Debye equation initially increases with the polymerization time t(polym) as the molecular weight, density, and sound velocity increase, as on cooling a liquid. The measured kappa reaches a maximum and then decreases, thus showing a peak at a certain t(polym) and finally becomes constant, which is not the true behavior of steady state kappa. The dielectric relaxation time of the covalently bonded structure at the t(polym) for the kappa peak is less than 5 s and the extent of polymerization is below the vitrification plateau value. The peak height increases when the pulse time for kappa measurement is increased. An increase in the liquid's temperature shifts the kappa peak to a shorter t(polym). Liquid compositions polymerizing rapidly show a similar shift, and those polymerizing slowly or whose viscosity does not reach a high enough value show a small kappa peak or none. The kappa peak may be an artifact of the time dependence of heat capacity during the pulse time used for the kappa measurement, as proposed for glasses and supercooled liquids, similar to the changes in other properties observed as an artifact of kinetic freezing/unfreezing. For a polymerizing liquid, the peak may additionally arise when the rate of increase in the elastic modulus becomes equal to the rate of decrease in equilibrium Cp. In either case, its appearance does not distinguish the Brownian motions' slowing on polymerization from that on cooling or compressing a liquid.     

Stability of Parathion-Methyl,Methiocarb, DDT and 2,4-D in Solid-Phase Extraction Precolumns Packed with a Polymeric Reversed Phase

Abstract

The stability of parathion-methyl, methiocarb, DDT and 2,4-D, adsorbed on the polymeric PLRP-S phase packed in small stainless steel precolumns was examined, with a view to propose the use of these precolumns as alternative means for the transport of water samples. First, water samples spiked with the studied pesticide at low μg/l concentration levels were extracted and preconcentrated in the precolumns, using appropriate conditions for a total recovery. Then, the precolumns were stored at room temperature (15—20°C) or at 35°C for different time periods. At the end of the respective period each precolumn was coupled to an HPLC column via a switching valve and was on-line analyzed by reversed phase chromatography with UV detection. The four pesticide recoveries after one week in the precolumn at room temperature were higher than 90%. The same was true at 35°C except for DDT, which suffered a 30% degradation in one week. Further studies showed that DDT and parathion-methyl were stable at least for five weeks in precolumns stored at room temperature. Methiocarb also was stable for this period but storing the precolumns at 4°C.     

The effect of microwave radiation on some thermal,rheological and structural properties of cassava starch

Three samples of native or untreated cassava starch were exposed to microwave radiation for periods of 5, 10 or 15 min. The temperature of each sample was measured immediately after each exposure time and the temperature of the samples was around 135 °C. The samples were cooled to room temperature and maintained in a desiccator with anhydrous calcium chloride. All the samples were analysed by thermogravimetry-derivative thermogravimetry, differential scanning calorimetry (DSC), rapid viscoamylographic analysis (RVA), X-ray diffraction powder patterns, non-contact atomic force microscopy and colour characteristics by reflectance spectrophotometry. The thermal behaviour, gelatinisation temperatures, enthalpy and pasting properties were determined. Relative to the time of microwave exposure, the peak viscosity and gelatinisation (RVA and DSC) increased slightly after 5 min, and, after 10 and 15 min, it decreased considerably. The degree of relative crystallinity (%) decreased, while the average roughness increased. The reflectance spectrophotometry showed that microwave action occured quickly and progressively, causing colour changes (mainly with trends to yellow) and very small differences to the starch samples that were heated at controlled temperature in a conventional oven.     

Influence of the storage conditions on the concentration of clenbuterol in cattle urine samples

A study of the stability of clenbuterol in cattle urine samples under different time and temperature storing conditions is reported. At the farm, urine samples were spiked with several amounts of this compound. Then, they were immediately transported to the laboratory and stored at room temperature, between 4 and 8 °C and frozen. Clenbuterol was quantified by using high performance liquid chromatography with diode-array detection (HPLC-PDA) on days 1, 7 and 42 after sample collection. The drug concentration in frozen urine samples was apparently stable during the whole studied period. However, there was a notable decrease in the concentration of this analyte when samples were stored at room temperature and between 4 and 8 °C, specially during the first week. A complementary study showed that the decrease in clenbuterol concentration was particularly significant from 1st to 4th day after sample collection and when urine specimens were kept at room temperature. Based on the results of this study, it was concluded that sample freezing as soon as possible after collection is the most adequate way to guarantee that the reliable concentration of clenbuterol in urine specimens remains unchanging until sample analysis.