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Mass Concrete 
Temperature Monitoring

ConcreteAI's compact and battery-powered system enables projects to seamlessly monitor and observe real-time temperature and differential readings.

WHY IS IT IMPORTANT TO MEASURE

Mass Concrete Thermal Control Plan

Quality Assurance

Monitoring ensures uniform concrete curing, crucial for strength, durability, and overall quality.

01

Preventing Cracks

Managing temperature differentials minimizes the risk of cracks, preserving structural integrity.

02

Construction Schedule

Understanding temperature variations aids in scheduling, optimizing timelines, and avoiding delays.

03

Contractual Requirement

Implementing temperature monitoring helps meet mass concreting contractual obligations.

04

WHY CONCRETEAI

Wire-Free Installation & Real-Time Data

Wireless Solution

Battery-powered for up to 2 years, it automatically collects data. Positioned above monitoring points, saving installation time and reducing wire damage risk.

Real-time Temperature and Differential Readings

24/7 real-time insights of concrete temperature via ConcreteAI's web app to optimize construction timelines based on precise curing completion notifications.

Automated Documentation on Temperature and Differential

Download full reports with automated temperature and differential data for easy compliance with project contracts.

COMPARING WITH THE CURRENT SITUATION

Traditional Methods VS Our Wireless Solution

Traditional Temperature Data Logger

ConcreteAI System

Data Collection

Manual

Automatic Transmission

Set-up and Installation

Reusable Logger with Consumable Sensor

Reusable Logger with Consumable Sensor

Battery

7-10 days

6 months to 2 years

Set-up and Installation

1 hour (1 team) 
Frustrating cable management
Routing all cables to a centralized logger location

20 minutes (1 pax)
Minimal cable management required
Direct installation above the monitoring location

Durability and Reliability

Cables are easily damaged during or after the pour 

Reducing wiring lessens the risk of being severed
Stainless steel cover on sensor tips prevents damage

Monitoring

Manually or check online

Automatic Whatsapp Alert

  • Disconnection

  • Low on battery

  • Exceed threshold 

Ng Cheng Keyong, Technical Director, R.A.K. Materials Consultants Pte Ltd

"ConcreteAI's system makes temperature monitoring easier and more efficient for our team. With simplified cabling and automated data collection, we no longer need to send people down regularly to collect data. As an innovative company, we leverage technology to improve efficiency”.
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  • What does the ConcreteAI sensor monitor?
    ConcreteAI's SmartHub offers real-time monitoring of concrete temperature, which is then correlated with concrete compressive strength.
  • What does the ConcreteAI sensor monitor?
    ConcreteAI's SmartHub offers real-time monitoring of concrete temperature, which is then correlated with concrete compressive strength.
  • What does the ConcreteAI sensor monitor?
    ConcreteAI's SmartHub offers real-time monitoring of concrete temperature, which is then correlated with concrete compressive strength.
  • Is the method of strength measurement approved in Singapore and other areas?
    Certainly. ConcreteAI's system comprises two components: the SmartHub, which employs the maturity method to deliver real-time concrete strength readings, and the SmartCure system, which utilizes temperature-matched curing for in-place concrete strength measurement. While the SmartHub provides continuous readings through a non-destructive method, the SmartCure system offers destructive results. In Singapore, the maturity method is endorsed in various standards such as SS 78: Part B1: 1992 (2018), SS EN 13791:2009 (2016), SS 592:2013, SS EN 1992-1-1:2008 (2015) Eurocode 2, and SS EN 13670:2022, among others. Additionally, the temperature-matched curing method is highlighted in BS 1881:130 and SS EN 13670:2022. These standards are referenced in the latest published Approved Solutions by the Building and Construction Authority of Singapore. (link) For other regions and countries, we recommend reaching out to us directly or contacting the local authority to verify if the BS and EN standards are referenced in the local guidelines.
  • Is the method of strength measurement approved in Singapore and other areas?
    Certainly. ConcreteAI's system comprises two components: the SmartHub, which employs the maturity method to deliver real-time concrete strength readings, and the SmartCure system, which utilizes temperature-matched curing for in-place concrete strength measurement. While the SmartHub provides continuous readings through a non-destructive method, the SmartCure system offers destructive results. In Singapore, the maturity method is endorsed in various standards such as SS 78: Part B1: 1992 (2018), SS EN 13791:2009 (2016), SS 592:2013, SS EN 1992-1-1:2008 (2015) Eurocode 2, and SS EN 13670:2022, among others. Additionally, the temperature-matched curing method is highlighted in BS 1881:130 and SS EN 13670:2022. These standards are referenced in the latest published Approved Solutions by the Building and Construction Authority of Singapore. (link) For other regions and countries, we recommend reaching out to us directly or contacting the local authority to verify if the BS and EN standards are referenced in the local guidelines.
  • Is the method of strength measurement approved in Singapore and other areas?
    Certainly. ConcreteAI's system comprises two components: the SmartHub, which employs the maturity method to deliver real-time concrete strength readings, and the SmartCure system, which utilizes temperature-matched curing for in-place concrete strength measurement. While the SmartHub provides continuous readings through a non-destructive method, the SmartCure system offers destructive results. In Singapore, the maturity method is endorsed in various standards such as SS 78: Part B1: 1992 (2018), SS EN 13791:2009 (2016), SS 592:2013, SS EN 1992-1-1:2008 (2015) Eurocode 2, and SS EN 13670:2022, among others. Additionally, the temperature-matched curing method is highlighted in BS 1881:130 and SS EN 13670:2022. These standards are referenced in the latest published Approved Solutions by the Building and Construction Authority of Singapore. (link) For other regions and countries, we recommend reaching out to us directly or contacting the local authority to verify if the BS and EN standards are referenced in the local guidelines.
  • How do you measure compressive strength in real-time?
    Concrete’s compressive strength is determined using the internationally accepted maturity method in accordance with ASTM C 1074 and EN 13670. Maturity is the relationship between concrete temperature, time and strength gain. It is a way to measure the concrete’s in situ strength to expedite schedule, increase level of confidence and improve construction methods. Every concrete mix design has its own strength – maturity relationship. Thus, for every unique mix design, a 28-day calibration period is required to find the relationship.
  • How do you measure compressive strength in real-time?
    Concrete’s compressive strength is determined using the internationally accepted maturity method in accordance with ASTM C 1074 and EN 13670. Maturity is the relationship between concrete temperature, time and strength gain. It is a way to measure the concrete’s in situ strength to expedite schedule, increase level of confidence and improve construction methods. Every concrete mix design has its own strength – maturity relationship. Thus, for every unique mix design, a 28-day calibration period is required to find the relationship.
  • How do you measure compressive strength in real-time?
    Concrete’s compressive strength is determined using the internationally accepted maturity method in accordance with ASTM C 1074 and EN 13670. Maturity is the relationship between concrete temperature, time and strength gain. It is a way to measure the concrete’s in situ strength to expedite schedule, increase level of confidence and improve construction methods. Every concrete mix design has its own strength – maturity relationship. Thus, for every unique mix design, a 28-day calibration period is required to find the relationship.
  • What kind of structures or concrete mix can ConcreteAI solution be applied to?
    ConcreteAI sensors can be used for all types of concrete structures, for example wall, slab, column, beam, viaduct, hollow-core, pile cap and etc. ConcreteAI solution can also be applied to all common mix designs, including concrete with fly ash, GGBS and others. Feel free to contact us via email or phone if you would to clarify further.
  • What kind of structures or concrete mix can ConcreteAI solution be applied to?
    ConcreteAI sensors can be used for all types of concrete structures, for example wall, slab, column, beam, viaduct, hollow-core, pile cap and etc. ConcreteAI solution can also be applied to all common mix designs, including concrete with fly ash, GGBS and others. Feel free to contact us via email or phone if you would to clarify further.
  • What kind of structures or concrete mix can ConcreteAI solution be applied to?
    ConcreteAI sensors can be used for all types of concrete structures, for example wall, slab, column, beam, viaduct, hollow-core, pile cap and etc. ConcreteAI solution can also be applied to all common mix designs, including concrete with fly ash, GGBS and others. Feel free to contact us via email or phone if you would to clarify further.
  • How many data points are required inside a structure to measure compressive strength?
    Traditionally, we suggest installing a minimum of 2 data points within a structure or casting area. These monitoring points should be positioned at critical locations where the maximum working stress occurs. At the critical locations, a redundant sensor will also be placed. For every project, we will coordinate with and seek approval from the project team to finalize the monitoring plan. Should you require clarification on monitoring specific structures or casting items, please don't hesitate to reach out to us via email or phone.
  • How many data points are required inside a structure to measure compressive strength?
    Traditionally, we suggest installing a minimum of 2 data points within a structure or casting area. These monitoring points should be positioned at critical locations where the maximum working stress occurs. At the critical locations, a redundant sensor will also be placed. For every project, we will coordinate with and seek approval from the project team to finalize the monitoring plan. Should you require clarification on monitoring specific structures or casting items, please don't hesitate to reach out to us via email or phone.
  • How many data points are required inside a structure to measure compressive strength?
    Traditionally, we suggest installing a minimum of 2 data points within a structure or casting area. These monitoring points should be positioned at critical locations where the maximum working stress occurs. At the critical locations, a redundant sensor will also be placed. For every project, we will coordinate with and seek approval from the project team to finalize the monitoring plan. Should you require clarification on monitoring specific structures or casting items, please don't hesitate to reach out to us via email or phone.
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