Theoretical study of similar experimental method for durability of concrete under artificial climate environment

Ou, Geng; Tian, Feng; Li, Debao; Li, Qingtao

doi:10.1007/s11595-016-1374-z

Cited by 3 publications

(1 citation statement)

References 41 publications

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“…The gloss loss of 1.0% nano‐ZnO modified sample was 8.95, which has a decrease of 52.86% comparing with the unmodified samples. The increase of Δ E and gloss loss after aging suggested the coating layer underwent decomposition and pulverization during the UV aging test . However, this phenomenon was retarded after adding nano‐ZnO, confirming by the decreased Δ E and the gloss loss of the printed samples.…”

Section: Resultsmentioning

confidence: 80%

Aging performance of nano‐Zno modified polyurethane‐acrylic UV ink composites on wood and the degradation mechanism

Lin

Ling

et al. 2019

Polymer Composites

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Nano-ZnO was applied to modify the yellow polyurethaneacrylic UV ink by physically blending and then the modified ink composites were used for wood printing. The color and gloss of the printed samples before and after aging were tested at periods. The aging mechanism of the ink composites was investigated was analyzed by XPS and FTIR analyses, and the morphologies were observed by AFM analysis. The results showed that the UV ink composite underwent oxidation during aging. Cromatism and gloss changed, and bulges existed on the surface in both untreated and nano-ZnO modified samples. However, the situation of the nano-ZnO modified UV ink composite printed samples after aging test was not as server as that printed with the unmodified one. During light aging, the primary amine, CO 2 , and carboxylic acid were yielded, and NH radicals were generated, which promoted the formation of conjugated structure and the chromogenic enamine. As expected, these reactions were inhibited by adding of nano-ZnO. Consequently, the light-resistant of the UV ink composite was improved. 1.0% nano-ZnO offered the lowest chromatism and the gloss changes among all, showing the best light-resistant performance. POLYM. COMPOS., 40:3533-3540, 2019.

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Section: Resultsmentioning

confidence: 80%

Aging performance of nano‐Zno modified polyurethane‐acrylic UV ink composites on wood and the degradation mechanism

Lin

Ling

et al. 2019

Polymer Composites

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Study on the durability of MOCRC under constant-current-accelerated corrosion

LiYuanke

QiaoHongxia

GuoXiangke

et al. 2020

Emerging Materials Research

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To investigate the durability of magnesium (Mg) oxychloride-coated reinforced concrete (MOCRC) and the deviation from the natural corrosion process of the electrified accelerated corrosion test in reinforced concrete, the authors used the electrified accelerated corrosion test with saline soil as an electrolyte. A quality test, a dynamic elastic modulus test, a crack-width test, an electrochemical performance test and a microscopic test were conducted regularly. The test results show that the relative quality evaluation parameter ω 1, the relative dynamic elastic modulus evaluation parameter ω 2 and the relative corrosion evaluation parameter ω 3, which characterise the degradation of MOCRC, all gradually decrease as the electrification time increases. Failure standards were reached at 24, 21 and 21 days, respectively. Analysis of morphology, corrosion current density and corrosion rate shows that the morphology of the coated steel bar under accelerated corrosion is consistent with natural corrosion. Using saline soil as the electrolyte of the accelerated corrosion system can simulate steel bar corrosion in a natural environment better than a traditional salt solution can.

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Reliability Study of Magnesium Oxychloride-Coated Reinforced Concrete Based on Gumbel Distribution

Huang

Yang

2023

Materials

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The constant current accelerated corrosion test was used to study the durability of magnesium oxychloride-coated reinforced concrete (MOCRC) in order to solve the problem of MOCRC’s durability. The relative dynamic elastic modulus was utilized as the failure threshold to evaluate the concrete durability, and the collected life data of concrete under different cover thickness were acquired. On the basis of the Gumbel distribution, the probability analysis can be used to study and foretell the life data. The results show that when the durability is evaluated by the relative mass and the relative dynamic modulus of elasticity, the durability of MOCRC with a larger protection layer thickness is better; the relative dynamic modulus of elasticity can better reflect the durability change in MOCRC than the relative mass. When the Gumbel distribution is used for durability analysis, the calculated value of the model and the life data have a relatively high degree of fit, which can provide a reference basis for the durability evaluation of concrete.

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Theoretical study of similar experimental method for durability of concrete under artificial climate environment

Cited by 3 publications

References 41 publications

Aging performance of nano‐Zno modified polyurethane‐acrylic UV ink composites on wood and the degradation mechanism

Aging performance of nano‐Zno modified polyurethane‐acrylic UV ink composites on wood and the degradation mechanism

Study on the durability of MOCRC under constant-current-accelerated corrosion

Reliability Study of Magnesium Oxychloride-Coated Reinforced Concrete Based on Gumbel Distribution

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