# Effect of OLED Waste Glass Powder on Early Strength Performance of Rapid-Hardening Concrete

**Authors:** Ngan Thanh Vu, Seong-Kyum Kim, Jae-Min Lee

PMC · DOI: 10.3390/ma19051004 · 2026-03-05

## TL;DR

This study explores using OLED waste glass powder in rapid-hardening concrete to improve its long-term strength and reduce environmental impact.

## Contribution

The paper introduces OLED waste glass powder as a sustainable cement replacement in rapid-hardening concrete.

## Key findings

- A 10% replacement of cement with OLED waste glass powder improved long-term compressive and bond strength.
- Higher replacements (20–30%) caused strength loss due to dilution effects.
- OLED waste glass powder refined the pore structure and suppressed large pores in the concrete.

## Abstract

Rapid-hardening concrete is widely used for rapid repairs but can suffer from accelerated hydration, shrinkage-related cracking, and durability concerns. This study evaluates the feasibility of replacing cement with OLED waste glass powder (0–30%) in CSA-type rapid-hardening concrete as a low-impact repair material. Mixtures were prepared at a constant binder content (400 kg/m3) and water-to-binder ratio (0.425), and fresh properties (slump, air content, setting time) and mechanical performance (compressive and bond strength) were tested from 4 h to 56 d. Mercury intrusion porosimetry (MIP) and TG/DTG were additionally used to interpret changes in pore structure and hydration-related thermal indices. Increasing glass powder replacement improved workability but delayed setting. A 10% replacement (O-GP10) maintained 4 h compressive strength and showed slightly higher long-term strength and consistently higher long-term bond strength than the control, whereas 20–30% replacement caused pronounced strength loss due to dilution. MIP results indicated that O-GP10 suppressed large pores (>0.1 μm) and promoted a refined pore structure dominated by finer pores. TG/DTG trends were interpreted using temperature windows as comparative indicators, suggesting age-dependent bound-water development and a reduced apparent contribution in the Al-bearing-hydrate-related region for O-GP10. Overall, roughly 10% OLED waste glass powder is suggested for CSA rapid-hardening concrete to ensure early functioning while enhancing long-term bonding and microstructural stability.

## Full-text entities

- **Chemicals:** Al (MESH:D000535), water (MESH:D014867), CSA (MESH:D016572), O-GP10 (-)

## Figures

15 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12985835/full.md

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Source: https://tomesphere.com/paper/PMC12985835