Effect of a Boric Acid Corrosive Environment on the Microstructure and Properties of Concrete

Wang, Yu; Huang, Bei; Mao, Zhongyang; Deng, Min; Cao, Hongtao

doi:10.3390/ma13215036

Cited by 8 publications

(3 citation statements)

References 18 publications

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“…The effect of borate on the hydration of different cementitious phases had been studied over the past three decades. These studies indicated that [21,23,27,[38][39][40][41][42]:…”

Section: General Characteristics Of Concentrates and Their Problematic Naturementioning

confidence: 99%

Toward Sustainable Cementitious Radioactive Waste Forms: Immobilization of Problematic Operational Wastes

Rahman

Ojovan

2021

Sustainability

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Developing effective radioactive waste management practices is essential for ensuring the sustainability of the nuclear industry. The immobilization of radioactive wastes is one of the main activities conducted during the management of these wastes; it aims to produce a durable waste form that has sustainable performance over long periods of time. In this work, the challenges that face the design of durable cementitious waste forms are addressed for problematic operational wastes. In this respect, the problematic characteristics of evaporator concentrates, spent ion exchangers, and organic liquid wastes are overviewed, and the factors that affect the durability of their cementitious waste forms are identified. A summary of potential conventional and innovative cementitious matrices is presented by reviewing the cementation practices in national programs and recent research devoted to developing durable matrices. Finally, a guide to optimize the mix design of these waste forms was proposed that includes the selection of the testing procedure, factors that affect the waste form performance, and the optimization technique. This guide was presented with special focus on leaching tests, which are a means to test the stabilization performance of nuclear waste forms.

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“…The effect of borate on the hydration of different cementitious phases had been studied over the past three decades. These studies indicated that [21,23,27,[38][39][40][41][42]:…”

Section: General Characteristics Of Concentrates and Their Problematic Naturementioning

confidence: 99%

Toward Sustainable Cementitious Radioactive Waste Forms: Immobilization of Problematic Operational Wastes

Rahman

Ojovan

2021

Sustainability

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“…Boron-containing compounds such as borates and boric acid control the corrosion of steel embedded in concrete 36 , 37 . However, many researchers have reported either negligible or, in many cases, deteriorating effects of boron-based compounds added to concrete on the properties of concrete and reinforcement bars 38 – 41 . The inhibitory effects of boron-based compounds on iron and steel can be attributed to their pH-buffering action 42 – 46 .…”

Section: Introductionmentioning

confidence: 99%

Synergistic protection of borate and silicate salts composite for controlling the chloride-induced pitting and uniform corrosion of steel reinforcement bars embedded in mortars

Hussain,

Alhozaimy,

Al-Negheimish

et al. 2024

Sci Rep

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In this study, the efficacy of the combined effect of borate and silicate alkali metal salts added to mortars for controlling the chloride-induced uniform and localized corrosion of embedded steel rebars is examined. The individually added salts in mortars are found to have insignificant effects in terms of reducing the uniform corrosion rate and localized damage. However, their combination (0.50% sodium tetra borate + 0.10% sodium silicate added with respect to the weight of the binder) provides complete protection to reinforcements tested for long durations under wet/dry treatments with mortars in saline water and laboratory atmospheres. Electrochemical impedance spectroscopy, direct current cyclic polarization, polarization resistance, and visual observations are used for quantitative and qualitative evaluations of the protective effects of the tested additives. X-ray diffraction analysis, scanning electron microscopy, and energy-dispersive X-ray spectroscopy analysis of the corrosion products formed on the embedded steel surfaces help explain the possible mechanisms behind the considerable improvement in the inhibitive effects of a mixed composition of borate and silicate. This combination also improves the compressive strength and workability of the mixed concrete. The results reveal that the synergistic protection provided by a mixture of borate and silicate can be attributed to the co-deposition of an iron-boron + ferrosilicate + cortensitite (an iron-silicon phase) film on the rebar surface.

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“…Sulfates in groundwater are usually of natural origin but can also come from fertilizers and industrial wastewater. As the author states in [23,24], the progress of sulfate corrosion depends on the type of cation associated with the sulfate anion and on the salt concentration. The most aggressive chemical compounds include the salts of the following types: CaSO 4 , Na 2 SO 4 , K 2 SO 4 , MgSO 4 , (NH 4 ) 2SO 4 , and acid-H 2 SO 4 .…”

Section: Introductionmentioning

confidence: 99%

Experimental Study of the Resistance to Influence of Aggressive Liquids on Lightweight Concrete

Kurpińska

Haustein

2021

Materials

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In light of the scientific research, the corrosion of concrete structures is one of the main problems that may reduce their durability due to the negative impact of the natural environment. The paper analyzes the influence of the type of component on the selected properties of lightweight concrete subjected to the influence of aggressive liquids. Four concrete mixes were prepared with a granular aggregate made of foamed glass (GEGA) and aggregate made of sintered fly ash (GAA) with the use of a mineral additive: silica fly ash. The prepared lightweight concrete after one year was exposed for 60 days to the following environments: strong acid—HCl, 1% and 2% concentration, weak acid—CH3COOH, 1% and 2% concentration, and an aqueous salt solution of Na2SO4, 1% and 2% concentration. Then, the compressive strength was tested, and the microstructure analysis of the ready-made lightweight concrete (LWC) was performed. The degree of penetration of aggressive solutions into the cracks of the samples was assessed by means of applying 1% phenolphthalein solution. Changes in the weight of lightweight concrete samples after the test period were estimated. The obtained test results indicate that the decrease in the durability of lightweight concrete can be classified as a long-term process. Concrete with GEGA and GAA showed high resistance to aggressive environments. Moreover, the environment containing chlorides turned out to be the most aggressive, while the environment containing sulfates proved to be the least aggressive. The higher the concentration of the destructive factor was, the faster the corrosion process went. This has been proven by measuring the pH using phenolphthalein and carrying out microscopic examination. Concretes containing aggregates made of foamed glass and sintered fly ash are suitable for use both in traditional construction and in facilities exposed to an aggressive environment (e.g., in the chemical industry and at gas stations).

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Effect of a Boric Acid Corrosive Environment on the Microstructure and Properties of Concrete

Cited by 8 publications

References 18 publications

Toward Sustainable Cementitious Radioactive Waste Forms: Immobilization of Problematic Operational Wastes

Toward Sustainable Cementitious Radioactive Waste Forms: Immobilization of Problematic Operational Wastes

Synergistic protection of borate and silicate salts composite for controlling the chloride-induced pitting and uniform corrosion of steel reinforcement bars embedded in mortars

Experimental Study of the Resistance to Influence of Aggressive Liquids on Lightweight Concrete

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