PTT的等温与非等温结晶动力学研究

采用DSC方法对聚对苯二甲酸丙二酯进行等温与非等温结晶动力学研究,利用不同动力学模型对其结晶过程进行分析.结果表明,在等温结晶过程中,Avrami指数n和半结晶时间随着结晶温度的升高而增大,结晶速率常数K随着结晶温度的升高而减小;在非等温结晶的过程中,结晶动力学常数Zc和相对过冷度△Tc随着降温速率的提高而上升,Avr...     

PTT的非等温结晶动力学研究

采用DSC方法对PTT在不同冷却速率下的结晶过程进行了研究,并与PET进行了对比,其结晶动力学用Mandel Kern方法来处理。结果表明,PTF相对于PET更易成核结晶,PTT半结晶时间比PET长,冷却速率对PTT的半结晶时间影响大,并且PTF的非等温结晶动力学曲线的线性较PET好,能够更好的遵循Mandel Kern方法。     

PBT/PTT合金的非等温结晶行为

采用差示扫描量热法(DSC)研究了聚对苯二甲酸丁二酯(PBT)/聚对苯二甲酸丙二酯(PTT)合金的非等温结晶动力学.随着降温速率的增大,PBT/PTT合金的结晶峰温均降低,结晶峰均加宽.采用Jeziorny法、莫志深法和Flyn-Wall-Ozawa法分析非等温结晶过程,Jeziorny法能够描述PBT/PTT合金的初期结晶过程,对后期结晶存在一定偏差,各PBT/PTT合金的结晶维数变化不大;莫志深和Flyn-Wall-Ozawa法能很好地描述PBT/PTT合金的非等温结晶过程,随PTT含量增加,由Flyn-Wall-Ozawa法求得PBT/PTT合金的活化能呈增加趋势.相对结晶度为0.5,m(PBT)/m(PTT)分别为90∶10,70∶30,50∶50时,PBT/PTT合金的活化能分别为-201.9,-116,0,-66.6 kJ/mol;相对结晶度为0.5时,m(PBT)/m(PTT)为50∶50的合金活化能比PTT(-77.4 kJ/mol)还高.     

CHDM改性PTT共聚酯非等温结晶动力学研究

以对苯二甲酸(PTA)、1, 3-丙二醇(1, 3-PDO)和1, 4-环己烷二甲醇(CHDM)为原料,通过酯化缩聚工艺路线制备了CHDM改性聚对苯二甲酸1, 3-丙二醇酯(PTT)共聚酯——聚对苯二甲酸1, 3-丙二酯-1, 4-环己烷二甲酯共聚酯(PTTG)。借助乌氏黏度计和差示扫描量热(DSC)仪测试了PTT和PTTG的特性黏数、黏均相对分子质量和非等温结晶性能,并采用Jeziorny法研究了PTT和PTTG的非等温结晶动力学。结果表明:PTT和PTTG的特性黏数均大于0.7 dL/g,黏均相对分子质量均大于20 000;随着CHDM用量的增加,PTTG的结晶温度和结晶能力下降;PTTG的成核结晶方式复杂,PTT与PTTG的Avrami指数无较大变化,CHDM对PTT的晶体成核影响较小;随着CHDM的加入,PTTG的非等温结晶速率常数升高,结晶速率加快,导致PTTG结晶不完全,结晶能力下降。     

聚对苯二甲酸丙二醇酯的非等温结晶动力学研究

采用DSC研究了聚对苯二甲酸丙二醇酯(PTT)在不同等速降温速率下的结晶过程,并利用由等温Avrami方程推导得到的两种不同的等速降温非等温结晶方程,研究了其结晶动力学,得出PTT的成核方式为异相成核,同时利用拟和法计算了PTT的结晶能力,发现在同等条件下PTT的结晶能力大于PET。     

PBT非等温结晶动力学

用差示扫描量热法研究聚对苯二甲酸丁二酯（PBT）的非等温结晶动力学，并分别用Ozawa,Jeziorny和考虑综合因素法来处理PBT的非等温结晶数据。结果表明，PBT非等温结晶过程与Ozawa动力学方程相吻合，但不符合用Jeziorny方法处理的Avrami动力学方程；综合考虑温度和结晶程度对聚合物结晶速度的影响。PBT非等温结晶过程符合结晶动力学方程。     

PET/PTT合金非等温结晶行为的研究

采用差示扫描量热仪对熔融共混制备的聚对苯二甲酸乙二醇酯（PET）/聚对苯二甲酸丙二醇酯（PTT）合金的非等温结晶行为进行研究。结果表明,在相同的降温速率时, 随着PTT含量的增加,PET/PTT合金结晶峰温度向低温方向移动,而且当合金中PET与PTT含量接近时,合金样品出现了双重结晶峰;在降温结晶的过程中,随着降温速率的增大,各合金样品结晶峰温度均降低,其结晶峰均宽化;采用Jeziorny法对上述非等温结晶过程进行了分析,分析结果表明,随着降温速率的增大,各合金样品非等温结晶速率常数增加,其Avrami指数在1~5之间,并且逐渐减小。     

纳米粒子改性PET的非等温结晶动力学

研究了有机纳米丁苯吡粉末橡胶、无机纳米粒子添加到聚对苯二甲酸乙二酯(PET)后对PET结晶行为的影响.并探讨了不同降温速率下3种体系降温过程中的结晶行为及基于Jeziomy理论和莫氏理论的结晶动力学.研究表明,3种纳米粒子对PET结晶动力学的影响是不同的,纳米粉末橡胶在较低结晶度时符合Jeziorny理论,而无机纳米粒子则对莫氏理论有较好的相关性.由莫氏理论计算出的参数表明,达到同样结晶度时有机化黏土促进PET结晶的效果比纳米CaCO3好.     

PBT聚酯非等温结晶动力学

用差示扫描量热分析(DSC)法研究聚对苯二甲酸丁二酯(PBT)的非等温结晶动力学,并分别用Ozawa、Jeziorny和综合因素法等三种方法来处理PBT的非等温结晶数据。结果表明,PBT非等温结晶过程与Ozawa动力学方程相吻合,而不符合用Jeziorny方法处理的Avrami动力学方程;综合考虑温度和结晶程度对聚合物结晶速度的影响,PBT非等温结晶过程符合结晶动力学方程:dG(t)/dt=e~(-E/R(T-T_R)+F(T_m-T+α))(1-G(t))~nG(t)~m。     

PBT蓄能发光复合材料非等温结晶动力学研究

采用差示扫描量热(DSC)法研究非等温条件下环形对苯二甲酸丁二醇酯(CBT)反应性挤出加工所制聚对苯二甲酸丁二醇酯(PBT)蓄能发光复合材料的结晶行为,分别采用Ozawa,Jeziorny及Mo方程拟合分析复合材料的非等温结晶动力学。结果表明:采用Ozawa及Jeziorny方程所获拟合曲线均不成线性;Mo方程可很好地描述PBT蓄能发光复合材料的非等温结晶过程,拟合所得PBT复合材料的单位时间里体系到达结晶度时的降温速率(F(T))值均较纯PBT的低,且粉体质量分数为15%时,其F(T)值最小,表明加入发光粉体可加速体系的结晶过程,然而在高降温速率下,较高浓度的发光粉体反而会降低体系的结晶速率。     

Melting,crystallization behaviors,and nonisothermal crystallization kinetics of PET/PTT/PBT ternary blends

The melting, crystallization behaviors, and nonisothermal crystallization kinetics of the ternary blends composed of poly(ethylene terephthalate), poly(trimethylene terephthalate) (PTT) and poly(buthylene terephthalate) (PBT) were studied with differential scanning calorimeter (DSC). PBT content in all ternary blends was settled invariably to be one‐third, which improved the melt‐crystallization temperature of the ternary blends. All of the blend compositions in amorphous state were miscible as evidenced by a single, composition‐dependent glass transition temperature (T_g) observed in DSC curves. DSC melting thermograms of different blends showed different multiple melting and crystallization peaks because of their various polymer contents. During melt‐crystallization process, three components in blends crystallized simultaneously to form mixed crystals or separated crystals depending upon their content ratio. The Avrami equation modified by Jeziorny and the Ozawa theory were employed to describe the nonisothermal crystallization process of two selected ternary blends. The results spoke that the Avrami equation was successful in describing the nonisothermal crystallization process of the ternary blends. The values of the t_1/2 and the parameters Z_c showed that the crystallization rate of the ternary blends with more poly(ethylene terephthalate) content was faster than that with the lesser one at a given cooling rate. The crystal morphology of the five ternary blends investigated by polarized optical microscopy (POM) showed different size and distortional Maltese crosses or light spots when the PTT or poly(ethylene terephthalate) component varied, suggesting that the more the PTT content, the larger crystallites formed in ternary blends. © 2007 Wiley Periodicals, Inc. J Appl Polym Sci, 2007     

Crystal morphology and nonisothermal crystallization kinetics of short carbon fiber/poly(trimethylene terephthalate) composites

The crystal morphology and nonisothermal crystallization kinetics of short carbon fiber/poly(trimethylene terephthalate) (SCF/PTT) composites were investigated by polarized optical microscopy (POM) and differential scanning calorimetry (DSC). The optical micrographs suggest that the more content of SCF in composites, the smaller size of the spherulites is. Moreover, the addition of SCF can lead to forming banded spherulites in composites. The Avrami equation modified by Jeziorny, Ozawa theory and the method developed by Mo were used, respectively, to fit the primary stage of nonisothermal crystallization of various composites. The results suggest that the SCF served as nucleation agent, accelerates the crystallization rate of the composites, and the more content of SCF, the faster crystallization rate is. Effective activation energy calculated by the differential iso‐conversional method developed by Friedman also concludes that the composite with more SCF component has higher crystallization ability than that with less SCF content. The kinetic parameters U* and K_g are determined, respectively, by the Hoffman–Lauritzen theory. © 2007 Wiley Periodicals, Inc. J Appl Polym Sci 2007     

PET/PTT合金结晶形态的研究

采用XP-201热台偏光显微镜研究了对苯二甲酸乙二醇酯（PET）/对苯二甲酸丙二醇酯（PTT）合金等温结晶时的结晶形态及影响因素。研究结果表明：随着等温结晶温度的升高,PET/PTT(40/60)合金的结晶诱导期变长;在观察的时间范围内各样品的球晶尺寸随着时间的延长而增大;随着PTT含量的增加,样品球晶的线生长速率增大,球晶尺寸增大;对比不同温度下等温结晶的球晶形态,PET/PTT(100/0)样品在190℃结晶时球晶尺寸最大, PET/PTT(40/60)样品和PET/PTT(100/0)样品在180℃结晶时球晶尺寸最大; PET/PTT(0/100)样品等温结晶时呈现出了复杂的条带球晶。     

Synthesis and nonisothermal crystallization kinetics of biodegradable poly(ethylene terephthalate-co-ethylene succinate)s

In the current work, a series of biodegradable poly(ethylene terephthalate-co-ethylene succinate)s (P[ET-co-ES]s) were prepared via a traditional melting polycondensation method. First of all, the structures of prepared copolymers were characterized by nuclear magnetic resonance and Fourier transform infrared measurements. Meanwhile, the thermal properties of prepared samples were analyzed by differential scanning calorimetry and thermogravimetric analysis measurements, respectively. Subsequently, the mechanical properties of the P(ET-co-ES)s were evaluated, the tensile strength of P(ET-co-ES)s decreased with increasing of PES content in copolymer, however, corresponding P(ET-co-ES)s exhibited better elongation at break. Next, the biodegradability of P(ET-co-ES)s was evaluated using lipase as degrading enzyme. The results presented that the biodegradability of P(ET-co-ES)s improved with PES content, the corresponding results were supported by scanning electron microscopy test. Finally, the Mo's modified Avrami equation was employed to analyze the nonisothermal crystallization kinetics of prepared copolymers. The results showed the addition of the PES component improved the crystallization properties of the prepared P(ET-co-ES)s. © 2019 Wiley Periodicals, Inc. J. Appl. Polym. Sci. 2020 , 137, 48422.     

PTT／PET共混体系结晶行为和形态研究

利用差示扫描量热仪、正交偏光显微镜研究了聚对苯二甲酸丙二醇酯(PTT)、聚对苯二甲酸乙二醇酯(PET)及PTT/PET共混体系(质量比为25∶75)的结晶行为、形态和等温结晶动力学。结果表明,PTT/PET共混物中,少量的PTT部分地起到了成核作用,但在一定程度上阻碍了PET链段规则地进入晶格,影响了结晶速率。偏光显微镜观察到PET、PTT和PTT/PET共混物在120℃下1、20min的溶液滴膜有较清晰的球晶。     

MPO改性PTT共聚酯熔融结晶行为研究

采用直接酯化熔融缩聚法合成了一系列不同含量的2-甲基-1,3-丙二醇（MPO）改性的共聚酯,并采用差示扫描量热仪（DSC）研究了其熔融结晶行为。结果表明,MPO的加入使聚对苯二甲酸丙二醇酯（PTT）熔点和结晶温度降低,加入摩尔比为20 %的MPO可以使PTT熔点由原来的226.64 ℃降至201.78 ℃,加入摩尔比为10 %的MPO可以使PTT结晶温度由原来的159.01 ℃降至137.50 ℃,同时使半结晶时间(t1/2)增大;随降温速率的提高,各样品的结晶温度向低温方向移动,放热峰由窄变宽,t1/2变小;不同降温速率下,改性共聚酯的结晶速率常数(Zc)比纯PTT的Zc减小。