Electrothermal effect of carbon fiber and graphite reinforced metakaolin‐based geopolymer

Zhang, Yajun; Lin, Jialong; Chen, Shikun; Ruan, Shengqian; Wang, Wenxin; Liu, Yi; Yan, Dongming

doi:10.1111/ijac.14731

Int J Applied Ceramic Tech

2024

DOI: 10.1111/ijac.14731

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Electrothermal effect of carbon fiber and graphite reinforced metakaolin‐based geopolymer

Yajun Zhang,

Jialong Lin,

Shikun Chen

et al.

Abstract: This paper investigates the influence of carbon fiber and graphite on the cyclic electrothermal performance of geopolymers (inorganic polymers). It was observed that carbon fibers, graphite, and the carbon fiber/graphite composite could form a stable conductive network at low voltage (3 V). However, under high voltages (9 and 12 V), the current of the geopolymer exhibited a peak shape in the first cycle, with higher voltages resulting in larger peak values and decreased conductivity in subsequent cycles. While… Show more

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2024

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Mechanical and electrothermal properties of lightweight graphite/geopolymer composites

Jabbar,

Hameed,

Disher

2024

Int J Applied Ceramic Tech

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Graphite/geopolymer composite is a promising smart material that can be used in various applications. This paper reports the design of strong self‐heating graphite/geopolymer composites with high graphite percentages up to 120 wt% of metakaolin. The physical, mechanical, electrical, and electrothermal performance of composites were investigated; the compressive strength was tested at various ages and the electrothermal performance was tested using AC and DC voltages. The results showed that a compromise between high compressive strength and high electrothermal conversion can be achieved when a specific balance between the percentage of the graphite and the water content is established. The current study specified the reason for the deterioration of the electrothermal performance of the graphite/geopolymer composites, that is, the formation of a barrier layer between the electrode and the sample surface; it has been found that this can be avoided by removing the free ions from the geopolymer via washing. A composite with 47 ± 1 MPa compressive strength and stable electrothermal performance of 98°C at 6 DC volts can be prepared using 90 wt% graphite and 57 mL water content. This work is a step in the future innovation of smart construction using self‐heating and antifreezing construction materials.

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Mechanical and electrothermal properties of lightweight graphite/geopolymer composites

Jabbar,

Hameed,

Disher

2024

Int J Applied Ceramic Tech

View full text Add to dashboard Cite

show abstract

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Electrothermal effect of carbon fiber and graphite reinforced metakaolin‐based geopolymer

Cited by 1 publication

References 59 publications

Mechanical and electrothermal properties of lightweight graphite/geopolymer composites

Mechanical and electrothermal properties of lightweight graphite/geopolymer composites

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