1. Improved tensile strength and thermal stability of thermoplastic carbon fiber fabric composites by heat induced crystallization of in situ polymerizable cyclic butylene terephthalate oligomers
- Author
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Kim, Sung Ho, Noh, Ye Ji, Ko, Young Woung, Kim, Seong Yun, and Youn, Jae Ryoun
- Subjects
Crystallization -- Research ,Oligomers -- Usage ,Thermal stresses -- Research ,Thermoplastics -- Mechanical properties -- Thermal properties -- Production processes ,Materials research ,Engineering and manufacturing industries ,Science and technology - Abstract
Thermoplastic carbon fiber fabric reinforced composites (CFFRCs) were prepared using a novel fast manufacturing process with a low viscosity polymerizable cyclic butylene terephthalate (CBT) resin. Structure and properties of the composites altered by thermal annealing were investigated to develop appropriate post processing of the CFFRCs for fast production and lowering the processing cost. Annealing at 200°C for 120 min resulted in improved mechanical properties and thermal stability of the polymerized CBT (pCBT) based on differential scanning calorimetry, wide-angle X-ray diffraction, and thermo gravimetric analysis. The tensile strength of the CFFRC compression molded at 250°C for 2 min was 440 MPa and that of the CFFRC annealed at 200°C for 120 min after compression molding was 500 MPa, which is an improvement of 550 and 625% relative to the pCBT matrix, respectively. In addition, the thermal stability of the CFFRC annealed at 250°C for 120 min improved by 10°C. Therefore, tensile strength and thermal stability of the manufactured CFFRC can be improved by using the appropriate annealing conditions., INTRODUCTION Worldwide interest in energy reduction is increasing because of global issues, such as global warming, carbon emission, and inflation of oil prices, and weight savings in automobiles represent one [...]
- Published
- 2014
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