airKrete Canada - the World's Safest, Greenest Insulation

Certifications & Technical Specs

airKrete^®; has obtained approval for use in every province that acceptance has been requested. Here are test results for airKrete^®;:

Urea Formaldehyde

McMaster University Test - Urea Formaldhyde Detected : No
Open PDF Document for test results

Flame Spread Test
[Hardwood Plywood Manufacturers Association]
Report on surface burning characteristics determined by ASTM-E 814 t wenty-five foot tunnel furnace test method.
The normal 10 minute test was extended to 30 minutes with the following results:
Flamespread Factor: 0
Fuel Contributed Factor: 0
Smoke Density Factor: 0

Smoke Emission Test
Hardwood Plywood Manufacturers Association
Report on smoke density characteristics determined by NBS-Aminco Smoke Density Chamber.

These test results demonstrate: airKrete^®; is non-toxic.

Dynatech
The apparent thermal resistance of a specimen of a cementitious foam insulation material density:
2.07 lbs. per cubic foot @ 24C (75F)
K factor = .257 per 1 inch thickness
R factor = 3.9 per 1 inch thickness

Twin City Testing Corporation

Report of shrinkage test conducted according to ASTM:L C951, Par. 8.5 results:
Shrinkage, Inches: 0.00
Percent Shrinkage: 0.00

Consumer Product Safety Commission
Result of sample analysis report on airKrete^®; :
Totals Formaldehyde: None detected
Formaldehyde in air: Non detected

Penniman & Brown, Inc.
Chemists, Engineers, Inspectors - Baltimore, Maryland, Analytical Division
Report of analysis sample of reacted foam insulation identified as airKrete^®;, was qualitatively checked for formaldehyde: No evidence of formaldehyde was found.

A MICROBIAL RESISTANCE EVALUATION OF INDOOR MATERIALS
airKrete^®; INSULATION SAMPLE

EXECUTIVE SUMMARY / PROJECT DESCRIPTION
Air Quality Sciences, Inc. (AQS) is pleased to present the results of its microbial resistance evaluation of airKrete's indoor material identified as "airKrete^®; Insulation Sample. AQS conducted this study using a microbial test protocol following the requirements of ASTM Guideline D 6329-98 (1). This ASTM method is established to study indoor materials for their ability to support mould growth. Testing of the indoor material was conducted using static environmental chambers operating at 75% humidity (considered a "high normal"for indoor commercial spaces) and 95% humidity (considered an extreme moisture condition within buildings). airKrete^®;'s indoor material was inoculated with two representative indoor moulds, Stachvbotrvs chartarum and Eurotium amstelodami, and growth rates were measured over a three-week period as the materials were exposed in the two humidity environments. Mould growth is considered significant if it exceeds 20% of the initial baseline levels. Test methodology and results are given in the attached summary reports.

RESULTS:

Results show that the "airKrete^®; Insulation Sample" was resistant to mould growth at both 75% and 95% relative humidities. Neither moulds were found to amplify in the materials at either humidity.