Development of an injectable grout for concrete repair and strengthening
TLDR
In this paper, the coupled effect of temperature and silica fume addition on rheological, mechanical behaviour and porosity of grouts based on CEMI 42.5R, proportioned with a polycarboxylate-based high range water reducer was investigated.Abstract:
This paper deals with the coupled effect of temperature and silica fume addition on rheological, mechanical behaviour and porosity of grouts based on CEMI 42.5R, proportioned with a polycarboxylate-based high range water reducer. Preliminary tests were conducted to focus on the grout best able to fill a fibrous network since the goal of this study was to develop an optimized grout able to be injected in a mat of steel fibers for concrete strengthening. The grout composition was developed based on criteria for fresh state and hardened state properties. For a CEMI 42.5R based grout different high range water reducer dosages (0%, 0.2%, 0.4%, 0.5%, 0.7%) and silica fume (SF) dosages (0%, 2%, 4%) were tested (as replacement of cement by mass). Rheological measurements were used to investigate the effect of polycarboxylates (PCEs) and SF dosage on grout properties, particularly its workability loss, as the mix was to be injected in a matrix of steel fibers for concrete jacketing. The workability behaviour was characterized by the rheological parameters yield stress and plastic viscosity (for different grout temperatures and resting times), as well as the procedures of mini slump cone and funnel flow time. Then, further development focused only on the best grout compositions. The cement substitution by 2% of SF exhibited the best overall behaviour and was considered as the most promising compared to the others compositions tested. Concerning the fresh state analysis, a significant workability loss was detected if grout temperature increased above 35 °C. Below this temperature the grout presented a self-levelling behaviour and a life time equal to 45 min. In the hardened state, silica fumes increased not only the grout’s porosity but also the grout’s compressive strength at later ages, since the pozzolanic contribution to the compressive strength does not occur until 28 d and beyond.read more
Citations
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Investigation on fundamental properties of microfine cement and cement-slag grouts
TL;DR: In this article, the properties of six different MC grouts (three portland-based and three slag-blended) and two ordinary Portland cements (ASTM I and III) are measured.
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Preparation and polymeric encapsulation of powder mineral pellets for self-healing cement based materials
TL;DR: In this article, the development of coated pellets as a self-healing system in cement-based materials was described, which was utilised for producing pellets from three different powder minerals as potential healing agents: reactive magnesium oxide (MgO), silica fume and bentonite.
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Biogrout: A Novel Binding Material for Soil Improvement and Concrete Repair
Varenyam Achal,Satoru Kawasaki +1 more
TL;DR: It is important to choose grouting materials that are soft and fine enough to penetrate into the discontinuities in voids, cracks, or cavities to fill them to improve the mechanical properties and impermeability of a particular system.
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Design of geopolymer grouts: the effects of water content and mineral precursor
TL;DR: In this article, the main effects of high water content on the microstructure and mechanical properties of the materials, looking at physical and chemical aspects, were investigated using scanning electron microscopy and chemical phase analysis.
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Influence of superplasticizer, temperature, resting time and injection pressure on hydraulic lime grout injectability. Correlation analysis between fresh grout parameters and grout injectability
TL;DR: In this article, the authors evaluated the performance of grout injectability by checking the intrinsic properties of the grout and then by controlling the injectability through injection tests in porous media that simulate old masonries.
References
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