Home   >   Product Showcase   >   AccuPyc II 1345 Solutions - Foam

AccuPyc II 1345 Solutions - Foam

Density Measurements for Open- and Closed Cell Foams

The AccuPyc II unit can be ordered initially with the FoamPyc application installed. If you have a standard AccuPyc, you can upgrade with a software enhancement. A FoamPyc option for measuring open- and closed-cell foam materials is available in the following configurations for the standard and temperature- controlled pycnometers:

  • 10-cm³ nominal cell volume (for conformance to ASTM and ISO methods)
  • 100-cm³ nominal cell volume

FoamPyc Technique Determines Open Cell Volume in Foamed Materials

The FoamPyc option for the AccuPyc 1345 Density Analyzer lets you measure, calculate, and report the percentage of open cell volume in blocks of foamed or cellular plastic, glass, rubber, or metal.

These foamed materials have thin membranes or walls that separate internal cavities or cells. These cells can be open or interconnecting, closed or non-connecting, or a combination of open and closed. With the FoamPyc software, you can determine the percentage of sample volume occupied by open cells, as well as closed cells.

A Focus on Accuracy

The FoamPyc program ensures accuracy by correcting for punctured cells caused by cutting the block of material to obtain a sample. The volume of the cells that were opened on the cut surfaces of the sample are computed and their volume deducted from the analysis results so as not to overstate the true open-cell volume of the original uncut material.

The program uses correction calculations that follow ASTM Standard D 6226. Correction using cell dimensions method factors in cell chord length for estimating cut cell volume. Correction by re-cutting sample method, performs a second analysis to correct for opened cells, except this time the same sample is subdivided
(re-cut) to expose twice the total surface area as before. Then, the second run is subtracted

from the first run using a correction calculation, V= 2(V + D) - (V + 2D), where V is the true open-cell volume and D is the cut cell volume. No correction method performs an AccuPyc analysis on the cut sample as is, which works well with samples that have mostly Compressibility method permits the volume change of soft, closed cell foams to be measured by applying progressively larger amounts of isotropic gas pressure and computing the volume occupied by the foam. Cell fracture method, evaluates the possibility of fracturing, which may occur when closed cell foam made of brittle material (having large, thin-walled cells) is exposed to pressure. This method applies first a small, controlled amount of pressure, and then performs a volume measurement. Next, a larger amount of pressure is applied. The sample is then returned to the first pressure and volume measurement is repeated.

Micromeritics announces the availability of a FoamPyc Sample Preparation Kit, Part No. 133/33009/00, to enhance your assessment of open pores in plastic foams. ASTM Test Method D-6226 describes the technique for extracting a sample of foam of specific dimensions then re-cutting it to double the amount of exposed surface, thereby deriving a correction for the pores opened in the initial cutting. The kit contains a knife, extra blades and a guide structure for both the first cutting of sample to dimensions and the re-cutting.