Modification of plastic waste using ultrafine fly ash for plastic mortars with enhanced strength and ductility

Tan, Weibo; Xu, Ying; Wang, Xianggeng; Chen, Nan; Chen, Peiyuan; Gu, Zhicheng

doi:10.1680/jmacr.25.00219

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Research Article| January 12 2026

Modification of plastic waste using ultrafine fly ash for plastic mortars with enhanced strength and ductility

Weibo Tan;

Weibo Tan

Joint National–Local Engineering Research Centre for Safe and Precise Coal Mining,

Anhui University of Science and Technology

, Huainan,

China

; School of Civil Engineering and Architecture, Anhui University of Science and Technology, Huainan, China

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Ying Xu;

Ying Xu

Joint National–Local Engineering Research Centre for Safe and Precise Coal Mining,

Anhui University of Science and Technology

, Huainan,

China

; School of Civil Engineering and Architecture, Anhui University of Science and Technology, Huainan, China

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Xianggeng Wang;

Xianggeng Wang

School of Civil Engineering and Architecture,

Anhui University of Science and Technology

, Huainan,

China

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Nan Chen;

Nan Chen

School of Civil Engineering and Architecture,

Anhui University of Science and Technology

, Huainan,

China

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Peiyuan Chen;

Peiyuan Chen

Joint National–Local Engineering Research Centre for Safe and Precise Coal Mining,

Anhui University of Science and Technology

, Huainan,

China

; School of Civil Engineering and Architecture, Anhui University of Science and Technology, Huainan China

Corresponding author Peiyuan Chen (peiyuan29@126.com)

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Zhicheng Gu

School of Civil Engineering and Architecture,

Anhui University of Science and Technology

, Huainan,

China

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Author & Article Information

Corresponding author Peiyuan Chen (peiyuan29@126.com)

Declaration of competing interests The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper.

Publisher: Emerald Publishing

Received: June 05 2025

Accepted: October 24 2025

Online ISSN: 1751-763X

Print ISSN: 0024-9831

Funding

Funding Group:

Award Group:
- Funder(s):
  Outstanding Youth Project of Natural Science Research in 478 Universities of Anhui Province
- Award Id(s):
  23AH030043
Award Group:
- Funder(s):
  Joint National–Local Engineering Research Centre for Safe and Precise Coal Mining
- Award Id(s):
  EC2023010
Award Group:
- Funder(s):
  Anhui Provincial Science and Technology Innovation Key Projects Plan
- Award Id(s):
  202423l10050008
Award Group:
- Funder(s):
  Tongling Municipal Science and Technology Plan Project
- Award Id(s):
  20230203048
Award Group:
- Funder(s):
  Key Laboratory of Xinjiang Coal Resources Green Mining
- Award Id(s):
  KLXGY-KB2417
Funding Statement(s):
This work was funded by the Outstanding Youth Project of Natural Science Research in 478 Universities of Anhui Province (23AH030043), an Open Research Grant of the Joint National–Local Engineering Research Centre for Safe and Precise Coal Mining (EC2023010), Anhui Provincial Science and Technology Innovation Key Projects Plan (202423l10050008), Tongling Municipal Science and Technology Plan Project (20230203048) and an Open Research Grant of the Key Laboratory of Xinjiang Coal Resources Green Mining (KLXGY-KB2417). The analytical and testing center of Anhui University of Science and Technology is acknowledged for help in specimen analysis.

2025

Emerald Publishing Limited

Licensed re-use rights only

Magazine of Concrete Research (2026) 78 (1-2): 122–135.

https://doi.org/10.1680/jmacr.25.00219

A simple and effective method to enhance waste plastics for use in performance-improved plastic mortars is presented. Waste polyethylene (WPE) was coated with hot ultrafine fly ash (UFA) through a welding process, converting its smooth, hydrophobic and unreactive surface into a rough, hydrophilic and reactive one. This modification improved the compatibility of WPE with surrounding cement paste. Mortars containing UFA-coated WPE achieved 26–31% higher compressive strength than those with unmodified WPE. Pore structure analysis indicated that by coating WPE with UFA, the air-entraining problem of WPE was overcome and the pore structure of the prepared mortar was densified with fewer air voids, owing to abundant hydration products deposited at the interface of the WPE. Moreover, the enhanced interface of the WPE with the surrounding paste enabled the transfer of stress from paste to WPE without large deformation of the paste. In this way, the ductility of mortars with UFA-coated WPE was enhanced. with larger peak strains and smaller elastic moduli. Additionally, as the use of hot UFA was a simulation of freshly discharged fly ash from combustion systems in power plants, the proposed technology would require no additional energy when applied in practice.

2025

Emerald Publishing Limited

Licensed re-use rights only

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Modification of plastic waste using ultrafine fly ash for plastic mortars with enhanced strength and ductility

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Modification of plastic waste using ultrafine fly ash for plastic mortars with enhanced strength and ductility