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+27 (0) 11 954 1510

+27 (0) 11 954 1510

ACCUPYC II 1340 PYCNOMETER

General Interests

Roller Compaction

Foam/Cellular  Polymers

Density/Weight Solution

High-Pressure/Shale

Core Samples

Temperature Control/Asphalt

Gas Displacement Pycnometry System

 

Gas pycnometry is recognized as one of the most reliable techniques for obtaining true, absolute, skeletal, and apparent volume and density. This technique is non-destructive as it uses the gas displacement method to measure volume. Inert gases, such as helium or nitrogen, are used as the displacement medium. Density calculations using the gas displacement method are much more accurate and reproducible than the traditional Archimedes water displacement method.

 

The AccuPyc II 1340 Series Pycnometers are fast, fully automatic pycnometers that provide high-speed, high-precision volume measurements and true density calculations on a wide variety of powders, solids, and slurries. The instrument completes most sample analyses in less than three minutes without sacrificing accuracy. After analyses are started with a few keystrokes, data are collected, calculations are performed, and results displayed. A minimal amount of operator attention is required.

Maintain product integrity with this non-destructive test

Maximize your investment-Adaptive configuration to meet your sample size needs

Speed of analysis, accuracy, repeatability, and reproducibility

Ability to use a variety of gases

Increase efficiency and compliance with barcoding compatibility

Eliminate procedural steps with direct input from an analytical balance

Eliminate error with programmable automatic repeat and data acquisition set to your tolerances to comply with your SOPs

Low-cost, minimal maintenance, and small footprint

Versatility of keypad or Windows software operation

General Interest

Principle of Operation

 

This technique uses the gas displacement method to measure volume accurately. Inert gases, such as helium or nitrogen, are used as the displacement medium. The sample is sealed in the instrument compartment of known volume, the appropriate inert gas is admitted, and then expanded into another precision internal volume. The pressures observed upon filling

the sample chamber and then discharging it into a second empty chamber allow computation of the sample solid phase volume. Helium molecules rapidly fill pores as small as one angstrom in diameter; only the solid phase of the sample displaces the gas. Dividing this volume into the sample weight gives the gas displacement density.

 

Density measurement

 

Total

 

On an elementary level, the volume of a solid material can be calculated by measuring its length, width, and thickness. However, many materials have within their structure surface irregularities, small fractures, fissures, and pores. Some of these voids or pores are open to the surface or closed within the structure of the solid material. Therefore, differences in the material volume depend on the measurement technique, measurement method, and the conditions under which the measurements were performed.

 

 

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