Your search keyword '"Ryoji Okabe"' showing total 2 results

1. Exploring the effect of cooling rate on non-isothermal crystallization of copolymer polypropylene by fast scanning calorimetry.

Author

Yang Liao, Ye-yuan Hu, Kosuke Ikeda, Ryoji Okabe, Rui-fen Wu, Ryota Ozaki, and Qing-yan Xu

Subjects

INJECTION molding of ceramics, CRYSTALLIZATION kinetics, DIFFERENTIAL scanning calorimetry, POLYPROPYLENE, CRYSTALLIZATION

Abstract

Polypropylene is commonly used as a binder for ceramic injection molding, and rapid cooling is often encountered during processing. However, the crystallization behavior of polypropylene shows a strong dependence on cooling rate due to its semi-crystalline characteristics. Therefore, the influence of cooling rate on the quality of final product cannot be ignored. In this study, the fast differential scanning calorimetry (FSC) test was performed to study the influence of cooling rate on the non-isothermal crystallization behavior and non-isothermal crystallization kinetics of a copolymer polypropylene (PP BC03B). The results show that the crystallization temperatures and crystallinity decrease as the cooling rate increases. In addition, two exothermic peaks occur when cooling rate ranges from 30 to 300 K·s-1, indicating the formation of another crystal phase. Avrami, Ozawa and Mo equations were used to explore the non-isothermal crystallization kinetics, and it can be concluded that the Mo method is suitable for this study. [ABSTRACT FROM AUTHOR]

Published

2024

2. Influence of Cooling Rate on Crystallization Behavior of Semi-Crystalline Polypropylene: Experiments and Mathematical Modeling

Author

Yeyuan Hu, Yang Liao, Yanyan Zheng, Kosuke Ikeda, Ryoji Okabe, Ruifen Wu, Ryota Ozaki, Jun Xu, and Qingyan Xu

Subjects

cooling rate, crystallization, polypropylene, Flash DSC, PVT model, Polymers and Plastics, General Chemistry

Abstract

As crystallization behavior has a great effect on the injection molding process, the flash differential scanning calorimetry (FSC) method was employed to study the influence of cooling rate on the crystallization behavior of a semi-crystalline polypropylene (PP). As the experimental results show, crystallization temperatures (onset crystallization temperature and maximum crystallization temperature) and crystallinity decrease as the cooling rate increases. In addition, the corresponding mathematical models were established to describe the relationship between the crystallization temperatures/crystallinity and the cooling rate. A revised Tait equation was also carried out based on the mathematical models.

Published

2022