Electromagnetic Wave Technology
How Does a Moisture Meter Work?
Wagner Meters uses an advanced electromagnetic wave technology in their hand-held moisture meters. This proven technology allows the user to quickly and accurately measure the moisture content of wood without the time consuming effort of driving pins into the wood. The meters from Wagner Meters provide instant readings, scanning many board feet in seconds. Electromagnetic radio waves are sent into the wood without leaving any holes.
What is INTELLISENSETM TECHNOLOGY?
Wagner meters, featuring IntelliSense™ technology, go beyond the surface conditions for accurate measurements of moisture conditions IN the wood. Most pinless meters are unable to distinguish between surface or ambient conditions on the surface of the wood, and the real moisture picture in the wood. Pin-type meters may be able to bypass the surface conditions, but they also damage the surface of the wood each time you take a reading. Air humidity, condensation, or other ambient conditions can impact many moisture meters and give inaccurate readings that cost you money.
Here is a short video about how IntelliSense™ technology works:
Pin Meters vs. Electromagnetic Wave – Why do they read different?
Pin-type moisture meters work on a resistance principle that basically measures the flow of electricity through a substance. This method is subject to many environmental variables that can dramatically affect moisture meter readings such as chemicals in the water trapped within the wood and the temperature of the wood. Most pin-type meter readings must be corrected for any difference in temperature above or below 70 degrees F.
Wagner Meters’ Hand-Held Moisture Meters are virtually unaffected by surface moisture and temperature. (Except the 607 which is designed as a dual depth meter, capable of measuring surface moisture.)
Safe to Use
Moisture meters by Wagner Meters produce less electromagnetic radiation than standard house wiring. In addition, Wagner Meters have tested and certified their meters to comply with FCC and CE regulations.
PRECISION vs. ACCURACY
When referring to the digital readings of Wagner Meters’ MMC meters, often times a reference is made to precision. For example, the MMC210 is more precise than the MMC205. This is because the MMC205 only shows the MC in whole percentages with no decimal point. The MMC210 shows the MC in a tenth of a percent readings or “.1 precision.” This does NOT mean that the MMC205 is less accurate. This is simply referring to how the MC is displayed.
Meter precision does not equate to accuracy.
ASTM 4442-92 Oven Dry – this is the standard to which all wood moisture meters are compared for accuracy.
A moisture meter from Wagner Meters is as accurate, or more accurate than any moisture meter that is on the market.
This can be verified by several university meter studies which are available upon request.
Studies which may refer to another model, relate to all of our wood moisture meters because they have the same circuitry, technology, and accuracy. The C575 meters are the only exception because of different technology used.
WAGNER METERS USAGE TIPS
Be sure to press down firmly on the center of the moisture meter with approximately 3 pounds of pressure to ensure good sensor plate contact with the wood surface. This is especially important on rough-sawn lumber. Do not take readings with the meter where there is a noticeable defect or knot in the lumber.
If there is visible surface moisture or water, wipe off any excess, and let the surface of the wood dry-out for a couple of minutes. Next, use the moisture meter to take the reading. If possible, turn the board over and use the meter to measure the other side. If the thickness of the piece is greater than 1 1/2 inches, it is a good idea to use the meter to take measurements on both sides.
Ensure that there is nothing (especially your hand or metal) under the material you are measuring. In order to take a valid measurement, the meter’s sensing area must be completely covered with the wood you are measuring. If the meter’s sensing area is not completely covered, your moisture content reading may be lower.
WOOD TEMPERATURE OR SURFACE MOISTURE
Moisture meters by Wagner Meters are virtually unaffected by surface moisture or temperature.
Standing water or visible water on the board can affect the reading. Visible water should be wiped off.
NOTE: If water is allowed to soak into the wood, it will naturally show higher moisture content. If a piece of wood is quite rough, it will soak up the water quite readily, affecting the readings for all moisture meters.
Wagner Meters’ Hand-Held Moisture Meters are designed for compact convenience. They are not easily damaged, but they can be damaged by being dropped or slammed down on hard surfaces, as can any moisture meter. For large volumes of wood, an in-line moisture measurement system should be used.
Wagner Meters calibrates their moisture meters at the factory. With proper care the meters stay in calibration. In the event that the moisture meter has been dropped, or you suspect for any reason that the meter is out of calibration, a calibration verification block is available. Anytime that the meter is not reading correctly on the calibration block, it should be sent to the factory for calibration.
1 ½” for C575
1 ½” for MMC205, 210, 220
1 ½” for MMI1100
Depth of Measurement
¾” for MMC200 series, MMI 1100, and C575
CORRECT MOISTURE CONTENT (MC)
The correct moisture content varies from region to region and indoor or outdoor use. Refer to local builders or associations for appropriate range in your area. If the wood is to be glued and is too dry, it won’t bond; if too wet, it won’t hold.
Resources for determining the proper moisture content:
- University Forestry Departments
- Industry Associations
Forest Products Research Laboratory in Madison, WI, (608) 231-9200
On frozen wood with up to 15% MC, accurate measurements can be obtained. For frozen wood with more than 15% MC, contact technical support for help.
Wet pockets and gradients continually equalize as moisture passes from fiber to fiber and to surrounding humidity levels.
Moisture meters measure the average of the area scanned. Meters can be held in one place or slid along the length of the wood. Most moisture meters from Wagner Meters are unaffected by the grain of the wood.
SPECIFIC GRAVITY REFERENCES
First refer to the handbook that comes with the moisture meter or the CD that was included with meters purchased after January 15, 2004. If unable to find the SG in those documents, go to Wagner Meters’ http://www.wagnersg.com/ page.
Measuring Non-solid Wood
Wagner Meters has developed meter correction factors for the following non-solid woods. It is available from technical services. This gives a relative reading because of the glues and resins.
- Plywood – SYP, CDX, Douglas Fir
- OSB – SYP, CDX, Douglas Fir
- Engineered – has layers of wood like plywood
- Laminate – has very fine fibers or dust particles which are held together by glues and resins with a picture on top
WOOD TREATMENT NOTES
CCA (1% CCA, 99% water)
- Copper – Basis for killing insects
- Chromium – Helps copper travel & permeate wood cells
- Arsenic – Gels copper into wood so it will not leach out
ACQ Environmentally safer than CCA
- Copper- Basis for killing insects
- Ammoniacal – Ammonia/salt based – Helps copper travel and permeate wood cells
- Quaternary – Gels copper into wood so it will not leach out
Both CCA & ACQ will cause readings on meter to be higher.
The process for treating wood is: Soak wood in pressure chambers and then use vacuum to pull out excess fluid. MC is 30 – 40% after treatment. The wood is then put on drip pads for 2 – 3 days and then kiln dried to their MC specification.
OVEN DRY TEST MUST BE DONE ON ANY TREATED WOOD.
Sign up today to receive Wagner's Woodworking Industry Newsletter!
Every issue is packed with highlights and tips for woodworkers
Latest posts by Wagner Meters (see all)
- August 2016 Rapid RH Newsletter – Replace Your Rapid RH® Smart Reader Batteries - August 23, 2016
- Forest Products News – Summer 2016 - July 28, 2016
- Quality Control in Moisture Measurement - July 26, 2016