Chiyoko Tomita scite author profile

ABSTRACT:Temperature-modulated differential scanning calorimetry (T-MDSC) has been applied to the isothermal crystallization of poly(vinylidene fluoride), isotactic polypropylene, syndiotactic polypropylene, poly(ethylene terephthalate), poly(caprolactam) and poly(ethylene succinate). It has been confirmed that the imaginary part of the apparent heat capacity determined by T-MDSC gives the temperature dependence of linear growth rate. The proper choice of the baseline for the phase angle of the complex heat capacity has been discussed and it is concluded that the change in the crystallinity evaluated from the integration of mean exothermic heat flow can be used as the baseline.KEY WORDS Temperature-Modulated Differential Scanning Calorimetry / Crystallization Kinetics / Phase Angle / Temperature-modulated differential scanning calorimetry (T-MDSC) 1 -3 applies a thermal modulation in temperature to a conventional DSC run and determines a dynamic heat capacity from the relationship between the modulation components of temperature and of heat flow. Primary application of this technique is the measurement of specific heat capacity and the examination of the anomaly in a relaxation process such as et. process related to the glass transition. 4 -8 The subject of the present paper is the application to the firstorder phase transition of crystallization. The driving force of the transition is supercooling, and hence the modulation in temperature causes the modulation in the kinetics. We have recently proposed an analysis of the transformation kinetics of crystallization and applied to the crystallization of polyethylene and poly(ethylene terephthalate). 9 -12 It has been experimentally confirmed that the temperature dependence of growth rate is obtainable by the analysis. It has been noticed that the important point is the determination of the phase angle in the apparent heat capacity. The determination is influenced by the choice of baseline which is dependent on the heat capacity and thermal conductivity of the sample. Many arguments have been raised on the choice in the glass transition and melting region of polymers. 13 -15 In the present paper, we have examined the crystallization kinetics of several polymers to establish the phase angle correction for polymer crystallization.In the following, we firstly review our analysis method of crystallization kinetics of polymers with T-MDSC. Secondly, the calibration method of T-MDSC is outlined. The experimental results will be discussed subsequently.MODEL 9 -12

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An application of temperature modulated differential scanning calorimetry to the exothermic process of poly(ethylene terephthalate) crystallization

Toda

Tomita

Hikosaka

et al. 1997

Polymer

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Kinetics of irreversible melting of polyethylene crystals revealed by temperature modulated DSC

Toda¹,

Tomita²,

Hikosaka³

et al. 1998

Thermochimica Acta

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A calibration of complex heat capacity obtained by temperature-modulated DSC in the melting region of polymer crystals

Toda

Arita

Tomita

et al. 2000

Polymer

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Chiyoko Tomita

Melting of polymer crystals observed by temperature modulated d.s.c. and its kinetic modelling

Temperature-Modulated DSC Applied to the Transformation Kinetics of Polymer Crystallization

An application of temperature modulated differential scanning calorimetry to the exothermic process of poly(ethylene terephthalate) crystallization

Kinetics of irreversible melting of polyethylene crystals revealed by temperature modulated DSC

A calibration of complex heat capacity obtained by temperature-modulated DSC in the melting region of polymer crystals

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