RC, I know you like the CT-33, but I couldn't help myself and bought a $40 General pinless moisture meter at Home Depot. I'd like to establish a regular inspection protocol with my new-to-me boat. I thought this might be worth a shot.
I read your excellent article, Understanding the Moisture Meter / Electrophysics CT-33.
http://www.pbase.com/mainecruising/moisture_meter
The meter I bought has a pretty good manual:
https://www.generaltools.com/produc...f/type/manuals/pdf/MM8ManualFINALGT083016.pdf
(Is there a way of uploading a pdf to one's media albums?)
RC, I would appreciate your thoughts on this tool, and in particular, thoughts on calibration, and what scale would correspond most closely to cored fiberglass decks? The available modes are drywall, masonry, softwood and hardwood.
For convenience I've reproduced some of the manual here:
I read your excellent article, Understanding the Moisture Meter / Electrophysics CT-33.
http://www.pbase.com/mainecruising/moisture_meter
The meter I bought has a pretty good manual:
https://www.generaltools.com/produc...f/type/manuals/pdf/MM8ManualFINALGT083016.pdf
(Is there a way of uploading a pdf to one's media albums?)
RC, I would appreciate your thoughts on this tool, and in particular, thoughts on calibration, and what scale would correspond most closely to cored fiberglass decks? The available modes are drywall, masonry, softwood and hardwood.
For convenience I've reproduced some of the manual here:
Here's a snippet of the specs:The MM8 is designed for use in woodworking, water damage restoration,
building construction and home renovation. Examples include:
• Checking for moisture on or below the surface of carpets and subflooring
• Measuring the moisture content of wood, drywall or masonry before
painting, wallpapering, sealing or treating
• Locating water leaks above ceilings, below floors or behind walls
• Selecting dry lumber
The meter is a non-invasive (pinless) instrument that can detect moisture up to
3/4 in. (19mm) below the surface of the following materials: wallboard,
masonry, hardwood and softwood. It infers the level of moisture from the
material’s capacitance, which the meter measures by gauging its effect on an
electric field that the meter generates each time it is powered on.
The meter exploits two physical phenomena to make its measurements:
1. The linear relationship between a solid material’s moisture level and its
dielectric constant—and therefore its capacitance.
2. The so-called fringing-field effect—the slight spreading of the electric
field produced by current flowing between two electrodes when both
electrodes are on the same side of a material.
Behind the top of the MM8 are two metal plates. When the meter is powered
on, the plates are given small and opposite charges. The potential difference
causes current to flow, creating a three-dimensional electric field.
When the top of the meter is placed against one side of a material with
moisture on or slightly below its surface, the increased capacitance of the
material distorts the electric field to an extent that can be sensed (as a change
in flux over the sensing area) and measured. Displayed readings reflect the
average moisture level of the material between its surface and the electric
field’s maximum penetration of 3/4 in. Moisture closer to the surface has a
greater effect on readings than moisture at the maximum penetration depth.
The MM8 has been calibrated at the factory for use with wallboard, masonry,
hardwood and softwood. The capacitance of wood and the capacitance of
building materials are affected differently by moisture because they have
different densities. The meter compensates for density by adjusting the gain of
its internal sensing circuitry.
The MODE button on the front of the meter provides a convenient way to
switch among the four materials. The name of the material selected appears on
the LCD. Below the LCD is a bank of colored LEDs that roughly mirrors the
digital reading above it in bar graph format, with green indicating “dry”, red
indicating “wet”, and yellow indicating an intermediate moisture level. An
audible out-of-range alarm (beeper) sounds whenever wood is tested and
found to have a moisture content above 17%, or when drywall or masonry is
found to be more than 70% wet.
Although the LCD displays measurements of drywall and masonry moisture
content as % readings, these are actually relative readings with no accuracy
specification. Despite that shortcoming, relative readings are useful for quickly
comparing the moisture levels of materials, or the wetness of different areas of
the same material. For example, you can use the meter to locate the source of
a water leak above a ceiling by comparing readings at various points on it. If
the ceiling is level, the point that produces the highest reading is below the
source of the leak.
Any digital reading can be held by pressing the HOLD button on the front of the
meter. This button makes it possible to make a measurement in a dark place
and display it after bringing the meter into a lighted area.
To extend battery life, the MM8 automatically powers off after two minutes of
inactivity. The instrument is powered by a “9V” battery included in the blister
pack.
KEY FEATURES
• Separate settings for drywall, masonry, softwood and hardwood
• 2 in. diagonal high-contrast, white-on-black backlit LCD + 3-color LED
bar graph
• Non-invasive, non-marring detection technology with 3/4 in. (19mm)
maximum sensing depth
• ±4% accuracy on wood
• Calibrates automatically or manually
• Reading HOLD button
• 2-minute Auto Power Off trigger
• Separate out-of-range alarms for wood and building materials
• Low battery indication
• Powered by “9V” battery (included)
SPECIFICATIONS
Measurement Ranges 0 to 53% for softwood
0 to 35% for hardwood
Relative readings for wallboard and masonry
Measurement Accuracy ±4% for hardwood and softwood
Maximum Sensing Depth 3/4 in. (19mm)
(in wood)