Internet of Things‐Based Concrete Curing Invention for Construction Quality Control

Lo, King Chi; Kwok, Heung Wing Terry; Siu, Ming-Fung Francis; Shen, Qiping; Lau, Chi Keung Marco

doi:10.1155/2021/9933615

Cited by 9 publications

(1 citation statement)

References 18 publications

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“…The importance of IoT devices in enhancing the effectiveness and accuracy of concrete curing was highlighted by King-Chi Lo et al [1] in 2021. The suggested IoT-based monitoring system can keep an eye on the weather and the water used up during concrete curing.…”

Section: Literature Reviewmentioning

confidence: 99%

Prediction of Concrete Constituents’ Behavior Using Internet of Things (IoT)

Prakash,

Munipally,

Fernando

2023

KEM

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Due to the challenges of providing constant observation and control of the curing environment, the effectiveness of the conventional concrete process on site is poor. This causes a significant difference in the curing regimes encountered by various concrete pours. Yet, the potential of Internet of things (IoT) technologies has not yet been exploited in this context. To improve concrete practice, technologies have been harnessed that reduce human participation and enable more rigorous management of the ambient variables impacting curing. The interior temperature of concrete may be directly measured in real time and continuously monitored by a management system for in-place concrete using an all-in-one wireless sensor network (WSN) during the initial phases of curing. Without considering the wiring at the building site, the algorithm may also provide a well-informed choice about the removal of the formworks. To monitor and regulate the moisture content of hardening concrete to the levels necessary for high-quality hardened concrete, this research study looked at an IoT-based concrete curing control system based on sensor technologies. The effectiveness of this IoT-based technique was compared to the effectiveness of conventional curing procedures based on on-site trials. According to the findings, the system developed beats the conventional method in terms of both the effectiveness of concrete curing and the amount of time required for supervision.

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Section: Literature Reviewmentioning

confidence: 99%

Prediction of Concrete Constituents’ Behavior Using Internet of Things (IoT)

Prakash,

Munipally,

Fernando

2023

KEM

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Real-time monitoring of early-age compressive strength of concrete using an IoT-enabled monitoring system: an investigative study

Miller

Talebian

et al. 2023

Innov. Infrastruct. Solut.

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Determination of the early-age compressive strength of concrete is essential for quality assurance, safety, and economy of construction projects. Due to manual operation on construction site, conventional maturity meters are not efficient for live monitoring of the early-age concrete strength. Higher levels of automated and computerised improvements have been made possible by recent developments in wireless communications, sensor technologies, and data processing methods across the construction industry. For real-time monitoring of the early-stage concrete strength, the current study presents an innovative Internet of Things (IoT)-enabled system developed by concrete data sensors (CDS), an Australian-owned private business. The CDS sensor system (the system) communicates with temperature sensors via long-range wide-area network and is linked to a cloud-based platform for data storage. The suggested system’s effectiveness was assessed using three concrete mixtures and developed maturity relationships. It was observed that the predicted early-age compressive strength of the mixes matches well with the actual compressive strength and that the system can effectively automate the characterisation of maturity.

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Review on effect of curing methods on high strength concrete

Sidhu,

Siddique

2024

Construction and Building Materials

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Internet of Things‐Based Concrete Curing Invention for Construction Quality Control

Cited by 9 publications

References 18 publications

Prediction of Concrete Constituents’ Behavior Using Internet of Things (IoT)

Prediction of Concrete Constituents’ Behavior Using Internet of Things (IoT)

Real-time monitoring of early-age compressive strength of concrete using an IoT-enabled monitoring system: an investigative study

Review on effect of curing methods on high strength concrete

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