4.7 Article

Preparation and Properties of Municipal Solid Waste Incineration Alkali-Activated Lightweight Materials through Spontaneous Bubbles

Journal

POLYMERS
Volume 14, Issue 11, Pages -

Publisher

MDPI
DOI: 10.3390/polym14112222

Keywords

municipal solid waste incineration; alkali-activated; lightweight materials; self-foaming; compressive strength

Funding

  1. Funding Project of key research project of the Natural Science in Colleges and Universities of Anhui Province [KJ2020A0295]
  2. Research Foundation of the Institute of Environmentfriendly Materials and Occupational Health (Wuhu)
  3. Anhui University of Science and Technology [ALW2021YF01]
  4. Fujian Provincial Colleges and University Engineering Research Center of Engineering quality inspection and safety assessment [LLSSF-202001]

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A self-foaming alkali-activated lightweight material was prepared by combining the low-density and self-foaming expansion characteristics of municipal solid waste incineration bottom ash (BA) with a strong alkali. Increasing the BA content improved the foaming effect and reduced the density of the material, but led to a decrease in compressive strength and an increase in water absorption. Adding liquid sodium silicate and calcium hydroxide further reduced the density without significantly improving water absorption.
A self-foaming alkali-activated lightweight material was prepared by the pretreatment of municipal solid waste incineration bottom ash (BA). The low weight could be achieved without adding a foaming agent by using the low-density and self-foaming expansion characteristics of BA in combination with a strong alkali. The effects of BA, liquid sodium silicate (LSS), and calcium hydroxide (CH) on dry and wet densities, as well as water absorption, are discussed. The results show that increasing the BA content can significantly improve the foaming effect and reduce the dry and wet densities of specimens. However, it also leads to a sudden decrease in compressive strength and a significant increase in water absorption. LSS and CH can significantly improve the ability to seal bubbles by accelerating condensation, and they further reduce dry and wet densities without significantly improving water absorption. It is most effective at BA, LSS, and CH contents of 60, 20, and 2%, respectively.

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