The Wagner Smart LoggerÃ¢¢ is a small, lightweight, easily portable and highly accurate monitoring device that tracks ambient temperature and humidity conditions when flooring professionals are away from the job site. It can also be utilized during the wood flooring acclimation process and the storage of wood flooring. The Smart LoggerÃ¢¢ is capable of storing up to 12,000 pieces of data over a period of up to 300 days.
The Wagner Smart LoggerÃ¢¢ monitor incorporates the latest Bluetooth® technology and works in tandem with the Smart LoggerÃ¢¢ app, which can be downloaded for free at the Apple Store or Google Play. The app connects the Smart LoggerÃ¢¢ monitor through a mobile deviceÃ¢¬¢s Bluetooth® (AndroidÃ¢¢ or iOS® devices), enabling users to transmit and record data, and even send reports via email.
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By Jason Spangler
As the result of findings from an ASTM-commissioned study, the ASTM F06 Committee has issued a significant new update to the F2170 Standard for in situ relative humidity (RH) testing in concrete floor slabs. The update changes from 72 hours down to 24 hours as the amount of time needed to obtain official RH readings after drilling test holes.
This is great news if youÃ¢¬¢re a builder or flooring professional who works with concrete slabs, because you now have the green light to record ASTM-compliant RH readings two full days earlier than previously required by the standard.
This important change comes on the heels of an ASTM Precision and Bias (P&B) study in 2014 that demonstrated that test holes for in situ probes achieve moisture equilibrium in just 24 hours.
In other words, the ASTM P&B study clearly revealed that Ã¢¬ÅearlyÃ¢¬ readings taken with in situ RH probes at 24 hours are virtually the same as those taken later. Based on the studyÃ¢¬¢s findings, one does not sacrifice accuracy or reliability by taking RH readings at 24 hours. These Ã¢¬ÅearlyÃ¢¬ readings, in fact, provide an extremely reliable indication of the true moisture condition of the slab.
This new development is significant. Having the opportunity to take earlier readings allows contractors and floor installers to make important decisions related to the installation of flooring much sooner than with other concrete moisture tests.
ASTMÃ¢¬¢s Precision and Bias Study The P&B study involved testing six manufacturersÃ¢¬¢ RH products in which the laboratory took temperature and RH readings after one, two, and four hours, as well as 24, 48, and 72 hours.
The study found that readings taken at 24 hours using the manufacturersÃ¢¬¢ RH sensors were essentially identical with readings taken at 72 hours. Although there was some slight variation, it fell well within the acceptable range as specified by the standard.
In addition, RH measurements taken at 24 hours are just as accurate as those taken at 72 hours. This finding led to the ASTM committeeÃ¢¬¢s decision to change the standard to 24 hours.
Most accurate moisture test Based on other scientific studies, including at Lund University in Sweden during the 1990s, RH testing has been shown to be the most accurate, reliable method for assessing the true moisture condition of a concrete slab.
An important reason is that it is a depth-specific test based on what we know about how moisture gradients form within a concrete slab. RH measurements taken at 40 percent of the slab thickness when drying from one side (or 20 percent when drying from two sides) have been shown to be an excellent indicator of the amount of moisture the finished floor will Ã¢¬ÅseeÃ¢¬ after installation. Surface-based tests do not give this same kind of information with any reasonable degree of reliability.
Accelerates project workflow With the P&B study results and the changes to the ASTM standard, you also have a scientifically valid way to accelerate your project workflow by two full days. If the RH test readings at 24 hours fall within the range specified for your finished floor products, you can move forward with your flooring installation with confidence. No more waiting 72 hours for test results.
Similarly, if your RH readings are not within the floor product specifications at the 24-hour mark, youÃ¢¬¢ll again have your answer two days sooner and can immediately put in place mitigation steps as needed for drying the concrete slab.
Regardless of whether or not the readings are acceptable for your floor installation, RH testing provides this valuable information very quickly. The result? You avoid costly delays and enhance project profitability.
The change to 24 hours in the F2170 standard, along with the P&B study findings, provide just one more reason why the RH test can be considered superior to other moisture testing methods. Not only does in situ RH testing generate reliable data to help ensure successful flooring project outcomes, but it does so in a fraction of the time Ã¢¬ 24 hours instead of the 72 hours required by other tests.
So now you can move ahead with ASTM-compliant decisions for your flooring project just one day after initiating an in situ RH test, much faster than with other concrete moisture tests. For access to the current version, visit astm.org/Standards/F2170.