Infloor Infloorboard User Manual

www.Infloor.com

4

ACCELERATION

Acceleration is a measure of how fast a radiant

heating system responds. Aluminum is approx-

imately 1000 times more conductive than

wood. The layer of aluminum on

Infloorboard™ and in the groove significantly enhances both the transfer of

heat and evenness of heat distribution of the board. See Illustration A-1 to see

how the heat transfers through Infloorboard™. The thin profile and relatively

high density contributes to the superior acceleration and deceleration of

Infloorboard™.

Traditional radiant heating systems in concrete work well, but they must first

charge a large thermal mass before heat will begin to radiate from the panel.

They accelerate and decelerate very slowly due to the large thermal mass, and

they can be hard to control. Infloorboard™, being thin, but relatively dense,

and aided by it’s conductive aluminum layer, responds very rapidly. This results

in greatly improved response time, with almost no overheating since there is

almost no “thermal lag” to overcome. Infloorboard™ can be controlled with

standard set-back thermostats.

INFLOORBOARD™ WARMCOAT:

The Infloorboard™ Warmcoat aluminum top layer provides multiple benefits.

It is highly conductive. This Warmcoat aluminum layer is also moisture resist-

ant. When the edges and grooves of the Infloorboards™ are sealed using sili-

cone caulking, it provides significant moisture protection for the board. And it

provides a barrier to the transmission of any outgassing from the board.

Infloorboard™ is manufactured to meet the Federal Housing Authority (FHA)

outgassing standard of less than 0.3 ppm of formaldehyde. Independent labora-

tory tests with 144F° water indicate that, due to the aluminum Warmcoat layer,

Infloorboard™ has virtually no detectable levels of outgassing.

Illustration A-1