Physical and mechanical properties of fly ash‐based geopolymer with disposable medical mask reinforcement

Zhang, Xinli; Li, Xia; Shen, Dazhi; Ma, Yulian

doi:10.1002/app.55083

J of Applied Polymer Sci

2023

DOI: 10.1002/app.55083

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Physical and mechanical properties of fly ash‐based geopolymer with disposable medical mask reinforcement

Xinli Zhang,

Xia Li,

Dazhi Shen

et al.

Abstract: A tremendous amount of the nonbiodegradable microplastic waste has been generated after the outbreak of COVID‐19 by the widespread use of single‐use personal protective equipment, especially disposable medical masks (DMMs). This has caused harm to the health and safety of human beings and various organisms. Finding a way to properly deal with these single‐use medical wastes has become an urgent problem. In this paper, an innovative way was explored to use DMMs in geopolymer (GP). The physical properties, mecha… Show more

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2024

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Effect of Waste Glass Powder and Bamboo Fiber on the Physico-Mechanical Properties and High-Temperature Behavior of a Fly Ash-Based Geopolymer

Cheng,

Xiong,

Zhou

et al. 2024

ACS Omega

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This study investigated the properties of fly ash-based geopolymers containing waste glass powder (WGP) and bamboo fiber (BF) after exposure to ambient and high temperatures. Precursor replacement of fly ash by WGP at 2.5, 5, 7.5, and 10% levels coupled with the addition of BF at 1, 1.5, 2, and 2.5% levels was used to enhance the reactivity and toughness of the geopolymer matrix. The impact of WGP and BF on the fluidity, setting time, density, water absorption, and compressive and flexural strengths of the geopolymer pastes was examined. The experimental results showed that the physical properties of the geopolymer were altered by adding WGP and BF. The optimal percentages of WGP replacement and BF addition were 5 and 2%, respectively. Additionally, tests such as thermogravimetric analysis, mass loss, thermal shrinkage, compressive and flexural tests, visual observation, optical microscope, scanning electron microscopy, and X-ray diffraction analysis were conducted to assess the behavior of the geopolymers after exposure to high temperatures (200−800 °C). Addition of WGP and BF led to higher residual strengths, demonstrating that the geopolymer composites tended to gradually densify with increasing temperature due to the porefilling effects of WGP and the channel effects of BF, while the pure geopolymer continuously developed more cracks and wider pores. The study provides a viable approach for using solid waste materials and renewable resources in the production of highperformance geopolymer composites as sustainable building materials.

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Effect of Waste Glass Powder and Bamboo Fiber on the Physico-Mechanical Properties and High-Temperature Behavior of a Fly Ash-Based Geopolymer

Cheng,

Xiong,

Zhou

et al. 2024

ACS Omega

View full text Add to dashboard Cite

show abstract

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Physical and mechanical properties of fly ash‐based geopolymer with disposable medical mask reinforcement

Cited by 1 publication

References 47 publications

Effect of Waste Glass Powder and Bamboo Fiber on the Physico-Mechanical Properties and High-Temperature Behavior of a Fly Ash-Based Geopolymer

Effect of Waste Glass Powder and Bamboo Fiber on the Physico-Mechanical Properties and High-Temperature Behavior of a Fly Ash-Based Geopolymer

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