# Towards Ultra-Rapid and High-Toughness Cementing: A Synergistic Acceleration Leveraging Aluminum Sulfate and Sodium Alginate Copolymer Along with Glass Fibers

**Authors:** Zhiyuan Song, Sidra Chaudhary, Yan Ding, Yujiao Yan, Yong Wu, Qinxiang Jia, Xiaoyong Li, Yang Sun

PMC · DOI: 10.3390/nano16040240 · Nanomaterials · 2026-02-12

## TL;DR

This paper introduces a new cement admixture combining aluminum sulfate, sodium alginate copolymers, and glass fibers to drastically speed up cement setting while improving strength.

## Contribution

A novel synergistic strategy using specific copolymers and glass fibers with aluminum sulfate to achieve ultra-rapid cement setting and high strength.

## Key findings

- The admixture with p(SA-co-SMAS) and aluminum sulfate reduces setting times and increases compressive and flexural strength.
- Incorporating glass fibers further enhances performance, achieving initial setting in 2.24 minutes and 9.4 MPa compressive strength in 24 hours.
- The formation of Al4SO4(OH)10·36H2O and ettringite contributes to the improved mechanical and setting properties.

## Abstract

This study synthesizes two highly water-soluble copolymers, p(SA-co-SMAS) and p(SA-co-SMAS-co-AMPS) using sodium alginate (SA), sodium 2-methylprop-2-ene-1-sulfonate (SMAS), and 2-acrylamido-2-methylpropane sulfonic acid (AMPS, with or without addition) as precursors. Under ball milling, these copolymers are blended with aluminum sulfate and glass fibers to produce two series of cement admixtures. Compared to systems without admixtures or with pure aluminum sulfate as sole admixture, the admixture obtained from p(SA-co-SMAS) and aluminum sulfate significantly shortens the initial setting time (4.47 vs. 33.59 and 29.51 min) and final setting time (8.46 vs. 45.26 and 35.12 min), while markedly improving compressive strength (9.2 vs. 3.5 and 4.3 MPa) and flexural strength (3.5 vs. 1.0 and 1.1 MPa). This enhancement is attributed to the formation of a unique boehmite (AlO(OH)) phase in synthesized admixture, which rapidly reacts with tricalcium silicate, gypsum, and water in cement to form ettringite (Ca6Al2(SO4)3(OH)12·26H2O). The ettringite interlocks with the two-dimensional C–S–H gel, creating a stable three-dimensional network. Further blending this admixture with 200-mesh glass fibers yields a new admixture containing Al4SO4(OH)10·36H2O. Compared to boehmite, this phase further reduces setting times and increases average compressive strength (10.2 vs. 9.2 MPa). The admixture derived from p(SA-co-SMAS-co-AMPS) and aluminum sulfate shows even better performance: setting times are further shortened and flexural strength is significantly enhanced, owing to the presence of the more effective Al4SO4(OH)10·36H2O phase. Incorporating 200-mesh glass fibers into this system results in the shortest setting times (initial: 2.24 min, final: 5.73 min) and an excellent 24 h compressive strength (9.4 MPa), likely due to a unique and unexpected pore-filling effect. In contrast to conventional uses of sodium alginate as a retarder, glass fibers as mere reinforcements, and aluminum sulfate as a strength-impairing accelerator, this work demonstrates a synergistic strategy, which enables an ultra-rapid and high-strength cement setting process, offering highly significant scientific and practical value.

## Linked entities

- **Chemicals:** aluminum sulfate (PubChem CID 24850), sodium 2-methylprop-2-ene-1-sulfonate (PubChem CID 23663624), 2-acrylamido-2-methylpropane sulfonic acid (PubChem CID 65360), boehmite (PubChem CID 73982), ettringite (PubChem CID 129628151)

## Full-text entities

- **Genes:** GYPC (glycophorin C (Gerbich blood group)) [NCBI Gene 2995] {aka CD236, CD236R, GE, GPC, GPD, GYPD}, PDF (peptide deformylase, mitochondrial) [NCBI Gene 64146], GRIK4 (glutamate ionotropic receptor kainate type subunit 4) [NCBI Gene 2900] {aka EAA1, GRIK, GluK4, GluK4-2, KA1}
- **Diseases:** injury to (MESH:D014947), weight loss (MESH:D015431), toxicity (MESH:D064420)
- **Chemicals:** NaHSO4 H2O (-), Si (MESH:D012825), metal (MESH:D008670), Al (MESH:D000535), silicate (MESH:D017640), S (MESH:D013455), NO (MESH:D009614), SMAS (MESH:C056081), SiO2 (MESH:D012822), P (MESH:D010758), K (MESH:D011188), aluminosilicate (MESH:C049037), SA (MESH:D000464), O (MESH:D010100), sulfate (MESH:D013431), Na (MESH:D012964), Al2Si2O5(OH)4 (MESH:D007616), n-butanol (MESH:D020001), Cb (MESH:C063451), Na2SO4 (MESH:C012036), NO2 (MESH:D009585), dicalcium silicate (MESH:C013481), Ca(OH)2 (MESH:D002126), N (MESH:D009584), diethanolamine (MESH:C020283), AlO(OH (MESH:C069471), ester (MESH:D004952), Ettringite (MESH:C501337), C (MESH:D002244), polymer (MESH:D011108), saccharides (MESH:D002241), Ca2SiO4 (MESH:C031293), D-glucitol (MESH:D013012), amide (MESH:D000577), water (MESH:D014867), Ca3SiO5 (MESH:C506393), ZrO2 (MESH:C028541), Al(OH)3 (MESH:D000536), sucrose (MESH:D013395), sulfonate (MESH:D000476), sulfonic acid (MESH:D013451), alkali (MESH:D000468), hydroxide (MESH:C031356), sodium fluoride (MESH:D012969), Aluminum Sulfate (MESH:C041524), Al2O3 (MESH:D000537), gypsum (MESH:D002133), SO3 (MESH:C011118), H (MESH:D006859), NO3 (MESH:C038619), AS (MESH:D001151), Cd (MESH:D002104), Mn (MESH:D008345), triethanolamine (MESH:C009546), ammonium persulfate (MESH:C031276), poly(AMPS (MESH:C077118), Ce (MESH:D002563), hydroxyl (MESH:D017665), CaO (MESH:C016538), alginic acid (MESH:D000077322)
- **Species:** Homo sapiens (human, species) [taxon 9606]

## Full text

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## Figures

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## References

58 references — full list in the complete paper: https://tomesphere.com/paper/PMC12942764/full.md

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Source: https://tomesphere.com/paper/PMC12942764