12 moisture specifications, 1 cement/water/aggregate mix specifications, 2 oven dry vs. saturated surface dry mix designs – Rice Lake CB-2 Concrete Batch Controller Version 2.0 User Manual

Installation/Operation Manual - Appendix

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10.12 Moisture Specifications

10.12.1 Cement/Water/Aggregate Mix Specifications

When defining a mix, you specify the amount of cement, water, and aggregates per yard of delivered product.

The specified amount of water is the amount needed to react with the cement (free water).
Aggregates may (and probably will) contain moisture (the moisture content of the cement and admixtures is

ignored). They can contain both absorbed and free water. Absorbed water is NOT available to react with the

cement – free water is.
Each material has an associated “Absorption Factor”. This is the maximum moisture level at which there is no

free water. If a material is below its absorption factor, some of the added water will be absorbed by the material

and will not be available to react with the cement. If it is above its absorption factor, some of the water in the

aggregate will be available.
The CB2 will automatically adjust added water based on the current moisture levels in the aggregates, either

adding or subtracting as needed.

10.12.2 Oven Dry vs. Saturated Surface Dry Mix Designs

When specifying a mix design, the amount (by weight) of an aggregate per yard of delivered product is specified.

For a particular batch, the amount by weight is dependent on how much moisture is present, This may change

from day to day, but we don’t want to have to continuously change our mix designs to account for these

differences.
To solve this problem, we specify mix designs in terms of material with a specified moisture content and then

adjust that weight based on the current moisture content when producing product.
There are two recognized standard moisture levels – Oven Dry (OD) and Saturated Surface Dry (SSD). Oven

Dry contains no moisture at all. Saturated Surface Dry Contains moisture at the material’s “Absorption Level”.

Mix designs may specify the amount of aggregate per yard in either Oven Dry or Saturated Surface Dry weights.

(Right now, the only way to use Oven Dry weights is to specify Minnesota DOT as the regulatory agency.)

10.12.3 Example of Weight Adjustments Based on a Saturated Surface Dry Mix Design

This example shows how the CB2 adjusts the designed aggregate and water amounts based on actual moisture

content for a mix design using SSD aggregate weights.
Suppose for simplicity’s sake we have a design that calls for 1000 pounds of gravel, 500 pounds of cement, and

400 pounds of water per yard of concrete. Suppose also that the gravel has an absorption factor of 6% and a

current moisture content of 4%.
As the design is based on SSD weights, we could use the specified weights if the current moisture level was 6% -

the same as the absorption factor - but it is not – we are 2% short. So, how much gravel would we need to add at

4% moisture content to get the same amount of oven dry gravel as 1000 pounds of SSD gravel?
1000 pounds of SSD gravel contains 943 pounds of OD gravel (1000 / (100 x (1 + .06)). 943 pounds of OD

gravel at 4% moisture is 981 pounds. (943 x 1.04). So, to get the same amount of gravel, we need to reduce the

1000 pounds per yard to 981 pounds per yard.
OK, but we are not finished. When we add water to the mix, the aggregate will absorb enough of it to bring its

moisture content up to the SSD level. This water is not available to chemically react with the cement, but,

because the mix design is SSD based, the amount of water specified to be added is what is needed for this

reaction. We need to adjust the amount of water to be added to account for this.
Actually, this is pretty simple. We know that at SSD, the aggregate is 1000 pounds per yard and that we are

adding aggregate at 981 pounds per yard, so how much extra water do we need to bring it up to its 1000 pounds

per yard? 19 pounds per yard (1000 – 981).
So, for this simple case we wind up with an actual batch calling for 981 pounds per yard of gravel, 500 of

cement, and 419 of water.