Effect of inorganic particles gradation on the properties of high‐filled unsaturated polyester resin/CaCO3 composites

Author:

Liu Zhonglin1,Liu Wanyu1,Ma Lanyu1,Mo Min2,Huang Yifeng1,Lai Wenqin1,Xu Mengxue1,Li Yanming1,Mo Qiufeng1,Bai Xingjia2,Chen Cheng3,Huang Zhimin1,Zheng Yihua12ORCID

Affiliation:

1. Advanced Materials Industry Institute of Guangxi Academy of Science Guangxi Academy of Sciences Nanning China

2. College of Chemistry and Chemical Engineering Guangxi University Nanning Guangxi China

3. Guangxi Institute of Science and Technology Information Nanning China

Abstract

AbstractThe preparation of high‐filled composites by compounding with calcium carbonate (CaCO3) and polymer has received much attention. However, challenges such as enhancing the interaction between CaCO3 and the polymer and improving the performance of the resulting composites need to be addressed. In this paper, composites with a high filler content were made by adding fillers of various CaCO3 gradations into unsaturated polyester resin (UPR). The mechanical properties, curing degree, component distribution, and structural phases of resulting blends were analyzed by a universal testing machine, differential scanning calorimeter, Raman, and scanning electron microscope/energy‐dispersive x‐ray spectroscopy (EDX), respectively. Based on the research findings, optimizing the CaCO3 gradation significantly increased the strength of the resulting blends. The average flexural strength increased by 343.5%, while the average compressive strength increased by 888.9%. The composites with an optimized gradation of filler showed a significant reduction in uncured domains, leading to an improvement in the curing degree of the composites. The interfacial defects between the optimized graded CaCO3 filler and the UPR were reduced, resulting in a uniform distribution with no visible interface. The Raman and EDX analyses show that the gradation optimization technique has successfully prevented structural phase separation and enhanced the tendency to agglomerate between CaCO3 and UPR. This study proposes an effective method for developing high‐performance UPR/CaCO3 composites with a high filler content.Highlights The optimized gradation of CaCO3 was used as filler to address the weak interaction of CaCO3 with the UPR in a high‐filled UPR/CaCO3 composite system while improving the performance of the composite. The gradation optimization of CaCO3 filler can improve the morphology and reduce the porosity of the high‐filled UPR composites. The gradation optimization of CaCO3 filler can effectively improve the curing effect of UPR. Optimizing the CaCO3 gradation resulted in a significant increase in the average flexural strength (by 343.5%) and average compressive strength (by 888.9%) of the resulting blends.

Funder

Natural Science Foundation of Guangxi Zhuang Autonomous Region

Publisher

Wiley

Subject

Materials Chemistry,Polymers and Plastics,General Chemistry,Ceramics and Composites

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