Effect of chloride attack on the bonded concrete system repaired by UHPC

Background: Concrete is a common material used in the construction of marine structures, such as bridges, water treatment plants, jetties, etc. The use of concrete in these environment exposes it to attack from chemicals like sulphates, chlorides and alkaline, thereby causing it to deteriorate, and unable to perform satisfactorily within its service life. Hence, the need to investigate the durability properties of concrete has become necessary especially when admixtures are used to modify some of its properties. Objective: This research work investigates the effect of Cassava Starch (CS) on the durability characteristics of concrete. Methods: The durability properties investigated in this work are water absorption, sorptivity, resistance to sulphates, sodium hydroxides and chloride penetration. The specimens were prepared by adding CS by weight of cement at 0.4, 0.8, 1.2, 1.6 and 2.0% respectively. The concrete specimens were cured for 28 days, tested for compressive strength before ponding in ionic solutions of sodium hydroxide, sulphuric acid and sodium chloride. Six (6) concrete mixes were prepared, five of which were used to evaluate the effect of CS on the durability characteristics of concrete. Results: The slump values reduced with the increasing dosage of CS due to the viscous nature of the CS paste. Generally, the addition of CS in concrete tends to improve the resistance of concrete to sulphate and chloride attack due to the ability of the muddy-like starch gel to block the pore spaces of hardened concrete, hence, reduces the rate at which water and other aggressive chemicals penetrate the concrete. In addition, the retarding ability of CS impedes the formation of mono-sulphate aluminates during cement hydration, thereby making the concrete less susceptible to sulphate attack. Conclusion: The addition of CS to concrete by weight of cement generally improved the durability characteristics of concrete, while the relative performances of the concrete mixes showed that CS 2.0 gave a better resistance to chloride penetration and sulphate attack.

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A Comprehensive Life-Cycle Cost Analysis Approach Developed for Steel Bridge Deck Pavement Schemes

Coatings ◽

10.3390/coatings11050565 ◽

2021 ◽

Vol 11 (5) ◽

pp. 565

Author(s):

Changbo Liu ◽

Zhendong Qian ◽

Yang Liao ◽

Haisheng Ren

Keyword(s):

Life Cycle ◽

Life Cycle Cost ◽

Bridge Deck ◽

Analysis Approach ◽

Steel Bridge ◽

User Cost ◽

Construction Quality ◽

Concrete System ◽

Traffic Conditions ◽

Bridge Deck Pavement

This study aims to evaluate the economy of a steel bridge deck pavement scheme (SBDPS) using a comprehensive life-cycle cost (LCC) analysis approach. The SBDPS are divided into the “epoxy asphalt concrete system”(EA system) and“ Gussasphalt concrete system”(GA system) according to the difference in the material in the lower layer of the SBDPS. A targeted LCC checklist, including manager cost and user cost was proposed, and a Markov-based approach was applied to establish a life-cycle performance model with clear probability characteristics for SBDPS. Representative traffic conditions were designed using a uniform design method, and the LCC of SBDPS under representative traffic conditions and different credibility (construction quality as a random factor) was compared. The reliability of the LCC analysis approach was verified based on the uncertainty analysis method. Based on an expert-scoring approach, a user cost weight was obtained to ensure it is considered reasonably in the LCC analysis. Compared with the cumulative traffic volume, the cumulative equivalent single axle loads (CESAL) have a closer relationship with the LCC. The GA system has better LCC when the CESAL is less, while the EA system is just the opposite. The breaking point of CESAL for the LCC of the EA system and the GA system is 15 million times. The LCC analysis of SBDPS should consider the influence of random factors such as construction quality. The comprehensive LCC analysis approach in this paper can provide suggestions for bridge-management departments to make a reasonable selection on SBDPS.

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The 2007 financial crisis: strategic actors and processes of construction of a concrete system

Journal of Management & Governance ◽

10.1007/s10997-011-9185-2 ◽

2011 ◽

Vol 17 (2) ◽

pp. 453-489 ◽

Cited By ~ 7

Author(s):

Gemma Carolillo ◽

Piero Mastroberardino ◽

Claudio Nigro

Keyword(s):

Financial Crisis ◽

Concrete System

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Fatigue life prediction for the reinforced concrete (RC) beams under the actions of chloride attack and fatigue

Engineering Structures ◽

10.1016/j.engstruct.2021.112543 ◽

2021 ◽

Vol 242 ◽

pp. 112543

Author(s):

Jieqiong Wu ◽

Jianchao Xu ◽

Bo Diao ◽

Lin Jin ◽

Xiuli Du

Keyword(s):

Reinforced Concrete ◽

Fatigue Life ◽

Life Prediction ◽

Fatigue Life Prediction ◽

Rc Beams ◽

Chloride Attack

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The generalized Mayer theorem in the approximating Hamiltonian method

The Journal of the Australian Mathematical Society Series B Applied Mathematics ◽

10.1017/s033427000000480x ◽

1985 ◽

Vol 27 (1) ◽

pp. 125-130 ◽

Cited By ~ 1

Author(s):

A. P. Bakulev ◽

N. N. Bogolubov ◽

A. M. Kurbatov

Keyword(s):

Free Energies ◽

Hamiltonian Method ◽

Concrete System

AbstractWith the help of the generalized Mayer theorem we obtain an improved inequality for free energies of model and approximating systems, where only “connected parts” over the approximating Hamiltonian are taken into account. For a concrete system we discuss the problems of convergence of appropriate series of “connected parts ”.

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Chloride Diffusion Property of Hybrid Basalt–Polypropylene Fibre-Reinforced Concrete in a Chloride–Sulphate Composite Environment under Drying–Wetting Cycles

Materials ◽

10.3390/ma14051138 ◽

2021 ◽

Vol 14 (5) ◽

pp. 1138

Author(s):

Yang Luo ◽

Ditao Niu ◽

Li Su

Keyword(s):

Reinforced Concrete ◽

Coupling Effect ◽

Early Stage ◽

Polypropylene Fibre ◽

Chloride Diffusion ◽

Fibre Reinforcement ◽

Fibre Reinforced Concrete ◽

Basalt Fibre ◽

Diffusion Property ◽

Chloride Attack

The effect of fibre reinforcement on the chloride diffusion property of concrete is controversial, and the coupling effect of sulphate erosion and drying–wetting cycles in marine environments has been neglected in previous studies. In this study, the chloride diffusion property of hybrid basalt–polypropylene fibre-reinforced concrete subjected to a combined chloride–sulphate solution under drying–wetting cycles was investigated. The effects of basalt fibre (BF), polypropylene fibre (PF), and hybrid BP–PF on the chloride diffusion property were analysed. The results indicate that the presence of sulphate inhibits the diffusion of chloride at the early stage of erosion. However, at the late stage of erosion, sulphate does not only accelerate the diffusion of chloride by causing cracking of the concrete matrix but also leads to a decrease in the alkalinity of the pore solution, which further increases the risk of corrosion of the reinforcing steel. An appropriate amount of fibre can improve the chloride attack resistance of concrete at the early stage. With the increase in erosion time, the fibre effectively prevents the formation and development of sulphate erosion microcracks, thus reducing the adverse effects of sulphate on the resistance of concrete to chloride attack. The effects of sulphate and fibre on the chloride diffusion property were also elucidated in terms of changes in corrosion products, theoretical porosity, and the fibre-matrix interface transition zone.

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