Improving Self-Healing and Shrinkage Reduction of Cementitious Materials Using Water-Absorbing Polymer Microcapsules

Mao, Qianjin; Chen, Jiayi; Qi, Wenjing; Liu, Hui; Wang, Ziming; Cui, Suping

doi:10.3390/ma15030847

Cited by 12 publications

(13 citation statements)

References 39 publications

(38 reference statements)

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“…As can be seen from Table 1, it should be noted that with the same working consistency of all solutions, the water consumption in all compositions containing SAP expanding polymer agents is higher than the basic composition by an average of 22%, which is explained by the high absorption capacity of free SAP granules due to the ionic nature, internal linked structure and the formation of secondary chemical bonds [9][10][11]. The largest amount of water while maintaining the working consistency indicator was required for composition 7 with a content of 3 g/kg of AquaGel superabsorbent, which can be explained by the fact that, unlike most polymer products that absorb water, the superabsorbent based on the cross-linked copolymer of acrylamide and potassium acrylate has a lower amount of crosslinking agent than the other two SAPs in the study.…”

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confidence: 93%

“…In recent years, the regulatory framework for such materials has expanded in the direction of increasing the set of requirements for solutions and accounting for the parameters of joint work when creating compatible systems (in technological and physicochemical terms) [4][5][6][7][8], while in practice it becomes necessary to ensure additional properties. In addition to the appropriate UDC 691.535 DOI: 10.31650/2786-6696-2022-1-55-62 indicators of strength, rheological properties and reduction of setting and hardening time to reduce the period of repair work and to put the facility into operation as soon as possible, one of the most important characteristics of such materials is the increase of adhesion to the base (substrate) being repaired to create conditions for compatible work with a damaged structure and reduction of shrinkage deformations to prevent cracking of the material and the occurrence of defects in the contact zone between solution and substrate, which can be achieved by improving the hardening conditions when using polymer additives for internal care of the hardening material [9][10][11].…”

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confidence: 99%

“…Analysis of research and publications. Along with the classic methods of reducing shrinkage deformations [12][13][14][15], expanding polymeric agents (superabsorbents) of various chemical nature are increasingly used recently [9,16].…”

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confidence: 99%

“…Thus, stored water quickly migrates inside the polymer mesh. In the process of hardening of the repair material, water encapsulated in SAP moves back into the solution, ensuring a normal hydration process and improving the conditions of hardening of the repair material [9,16,21].…”

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Comparative Analysis of the Use of Expansion Agents in Repair Solutions of Dry Building Mixtures for Improving Hardening Conditions

Hedulian¹,

Gara²,

Savchenko³

2022

Modern Construction and Architecture

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The article examines the possibility of increasing the compatibility of repair solutions based on dry mixes with damaged concrete and reinforced concrete structures by improving the curing conditions of such materials through comparative analysis of adhesive strength and linear shrinkage of cement samples using different types of superabsorbents, namely SAP Newsorb based on sodium polyacrylates from the Japanese manufacturer Newstone, Chinese MNC-SAP based on potassium polyacrylates from MUHU Construction Materials and AquaGel based on cross-linked copolymer of acrylamide and potassium acrylate from the Australian Baroid. The data obtained during experimental studies show that the use of investigated SAP superabsorbents additives due to the improvement of hydration conditions in the cement matrix of the repair material can partially compensate the growth of shrinkage deformations, which, in turn, slightly improves the indicators of the adhesive strength of the bond with the surface of the damaged structure. A positive effect of the use of the specified polymer admixtures on the investigated cement solutions was established. Compared to the base sample, on average, for each of the studied days of hardening, the shrinkage rate of all samples containing SAP was reduced by 35%, which justifies their use in order to facilitate the creation and further high-quality functioning of the repair system. The addition of the studied SAPs allows to improve the adhesion index by 1.5-2.3 times compared to the basic one, which should ensure the maximum ability of the repaired system to perceive the workload. The optimal contents of SAP additives in the composition of the studied cement mortars to reduce shrinkage and increase the adhesive strength were determined. The compositions of non-structural repair cement mortars of class RM3 and R1-R2 in terms of adhesive strength and classes RM1-RM2 in terms of shrinkage deformation in accordance with Ukrainian and European standards were obtained.

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confidence: 99%

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confidence: 99%

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confidence: 99%

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Comparative Analysis of the Use of Expansion Agents in Repair Solutions of Dry Building Mixtures for Improving Hardening Conditions

Hedulian¹,

Gara²,

Savchenko³

2022

Modern Construction and Architecture

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“…6,7 In general, the shells of MEPCMs can be divided into organic shells and inorganic shells. 8 Inorganic materials such as calcium carbonate (CaCO 3 ), 1,9 titanium dioxide (TiO 2 ), 10,11 calcium alginate 12 and silica (SiO 2 ) 13,14 are often used as shell materials for microcapsules because of their excellent thermal stability and chemical inertness. SiO 2 is a typical inorganic material with wide source, low price and good mechanical properties.…”

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confidence: 99%

Preparation and characterization of soy polyols‐based PU shell microencapsulated phase change materials for reliable thermal energy storage

Yan

et al. 2022

Intl J of Energy Research

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Summary Microencapsulated phase change materials (MEPCMs) have attracted extensive attention due to their ability to encapsulate and protect core materials. Herein, this paper presents the successful preparation of an environmentally friendly bio‐based polyurethane (PU) by utilizing soy polyols as raw material and utilizing it innovatively to achieve the microencapsulation of phase change materials (PCMs). The surface morphology, thermal properties, particle size and particle size distribution of MEPCMs were comprehensively characterized and analyzed. Especially, a systematic study was conducted on MEPCMs in terms of their structure and properties, depending on different preparation conditions. According to the results, microcapsules obtained with a core‐shell ratio of 1:1 and mechanical stirring speed of 300 rpm display good spherical shape, smooth surface, and narrow particle size distribution. Moreover, the melting enthalpy of microcapsules can reach 91.4 J/g when the core material content is 48.4%. Moreover, compared to pure paraffin, the prepared microcapsules have superior thermal stability and high reliability, which shows promising energy storage efficiency of 91.5% even after 50 hot‐cold cycles.

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Self-healing concrete: Fabrication, advancement, and effectiveness for long-term integrity of concrete infrastructures

Meraz

Mim

Mehedi

et al. 2023

Alexandria Engineering Journal

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Improving Self-Healing and Shrinkage Reduction of Cementitious Materials Using Water-Absorbing Polymer Microcapsules

Cited by 12 publications

References 39 publications

Comparative Analysis of the Use of Expansion Agents in Repair Solutions of Dry Building Mixtures for Improving Hardening Conditions

Comparative Analysis of the Use of Expansion Agents in Repair Solutions of Dry Building Mixtures for Improving Hardening Conditions

Preparation and characterization of soy polyols‐based PU shell microencapsulated phase change materials for reliable thermal energy storage

Self-healing concrete: Fabrication, advancement, and effectiveness for long-term integrity of concrete infrastructures

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