Taku Ozawa scite author profile

Taku Ozawa

5Publications

4,256Citation Statements Received

42Citation Statements Given

How they've been cited

11,019

4,214

How they cite others

Affiliations

National Research Institute for Earth Science and Disaster Prevention, Chiba Institute of Technology, Daicel (Japan)

Publications

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A New Method of Analyzing Thermogravimetric Data

Ozawa¹

1965

6,153

2,173

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A new method of obtaining the kinetic parameters from thermogravimetric curves has been proposed. The method is simple and applicable to reactions which can not be analyzed by other methods. The effect of the heating rate on thermogravimetric curves has been elucidated, and the master curve of the experimental curves at different heating rates has been derived. The applications of the method to the pyrolyses of calcium oxalate and nylon 6 have been shown ; the results are in good agreement with the reported values. The applicability of the method to other types of thermal analyses has been discussed, and the method of the conversion of the data to other conditions of temperature change has been suggested. From these discussions, the definition of the thermal stability of materials has been criticized.

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Kinetics of non-isothermal crystallization

Ozawa¹

1971

Polymer

2,205

1,212

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Kinetic analysis of derivative curves in thermal analysis

Ozawa¹

1970

Journal of Thermal Analysis

2,124

507

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Two methods of obtaining kinetic parameiers from derivative thermoanalytical curves are proposed. The methods are based on the general form of kinetic formulae and are applicable to general types of reactions governed by a single activation energy. One method utilizes the linear relation between peak temperature and heating rate in order to estimate the activation energy, and only the information of the rate of conversion versus the temperature is necessary. The other method needs the information of both the conversion and the rate of conversion versus the temperature, and the Arrhenius plot is made for an assumed kinetic mecha!aism, Various types of thermal analysis have been applied in almost all fields of material research. The thermoanalytical method, in which the properties of a sample heated at a constant rate of heating are observed continuously, is an effective method when the thermal response time is large compared with the rate of the process and considerable change occurs during the period of heating the sample up ~o ~the desired temperature in an isothermal measurement. For kinetic investigation of the pyrolysis of a substance, thermogravimetry has been utilized mainly, and many methods of obtaining kinetic parameters from thermogravimetric data have been proposed. These have been thoroughly reviewed by Flynn and Wall [1].Recently mass-spectrometric thermal analysis (MTA) was proposed [2] and has been applied to the thermal degradation of polymeric materials [3][4][5][6]. This technique has some advantages over thermogravimetry since the volatilized products can be identified by mass-spectroscopy and the rate of the volatilization of eael~ 'product is also recorded simultaneously. Thus, we can obtain kinetic information as well as a knowledge of the products, and if the reaction proceeds in parallel reactions, these can be distinguished by identification of the products; this is not possible with thermogravimetry.However, a method of kinetic analysis of such derivative types of thermoanalytical curves as are obtained by MTA and differential scanning calorimetry (DSC) has not yet been proposed. Methods of kinetic analysis using data of both the conversion and the rate of conversion are reported for thermogravimetry, but these are only applicable to reactions of the n-th order, and hence can-,L Thermal Anal. 2, 2970

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Equivalent isothermal curves for kinetic analysis of non-stoichiometry

Ozawa¹

2010

J Therm Anal Calorim

137

173

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Estimation of activation energy by isoconversion methods

1992

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Taku Ozawa

A New Method of Analyzing Thermogravimetric Data

Kinetics of non-isothermal crystallization

Kinetic analysis of derivative curves in thermal analysis

Equivalent isothermal curves for kinetic analysis of non-stoichiometry

Estimation of activation energy by isoconversion methods

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