Description

ISO9237  Mask Airflow Resistance Tester Use Differential Pressure Method

Introduction

The computer breathability tester adopts the latest technology and the most common testing method, which is ideal for testing the breathability of all kinds of masks, leather, cloth, fabric, paper, cardboard or other flaky objects.This instrument is a fully integrated and automated instrument.

Standard: yy0469-2011 medical surgical mask, YY/T 0699-2013 disposable medical mask

BSEN 14683:2019 ISO9237, GB/T458, iso5636/2, QB/T1667, GB/T22819, GB/T23227, ISO2965, YC/T172, GB/T12655, etc.

 

ISO9237 Mask Airflow Resistance Tester Use Differential Pressure Method

Principle of respirator resistance test:

The gas flow rate was adjusted to 8L/min for the test, the diameter of the sample test area was 25mm, and the experimental area was 4.9cm. The pressure difference was calculated, and the result was reported as the pressure difference per square centimeter.

 

ISO9237  Mask Airflow Resistance Tester Use Differential Pressure Method

Testing principle of fabric permeability:

Based on the principle design of differential pressure method, the preprocessed sample is placed between the upper and lower measuring surfaces, and a constant differential pressure is formed on both sides of the sample. Under the effect of differential pressure, the gas flows from the high-pressure side to the low-pressure side through the sample. The permeability of the sample is calculated according to the area, differential pressure and flow through the sample.Or a constant airflow is formed on both sides of the sample, the pressure difference between the two sides of the sample is recorded, and the permeability of the sample is calculated.

 

ISO9237  Mask Airflow Resistance Tester Use Differential Pressure Method

Technical Specification

Measure range0~200 (Pa/ cm²)  0~400L/dm²/min
UnitPa/ cm²   Pa  L/dm²/min  μm/(Pa•s)  mm/s   m/s
Accuracy0.01 (Pa/ cm²)  0.1Pa  0.01  L/dm²/min
Error<1%
Measure error4.9cm²
Test airflow(Mask)8L/min
Test pressure difference range0-2000Pa
Weight25kg
Size420×340×480mm

 

ISO9237  Mask Airflow Resistance Tester Use Differential Pressure Method

Test principle:

Based on the principle design of differential pressure method, the preprocessed sample is placed between the upper and lower measuring surfaces, and a constant differential pressure is formed on both sides of the sample. Under the effect of differential pressure, the gas flows from the high-pressure side to the low-pressure side through the sample. The permeability of the sample is calculated according to the area, differential pressure and flow through the sample.Or a constant airflow is formed on both sides of the sample, the pressure difference between the two sides of the sample is recorded, and the permeability of the sample is calculated.

 

ISO9237  Mask Airflow Resistance Tester Use Differential Pressure Method

Product features

The instrument chip and sensor are imported from the United States, the test results are accurate, good repeatability, high precision.

The calibration of pressure sensor and flow sensor is traceable.

Exquisite design: the instrument USES microcomputer technology, the test process is completely automated, fast and accurate.Touch screen LCD display results, and with data recording and processing functions, with printout.

(3) superior performance: compared with the traditional breathability meter, this instrument has a very high advantage, the low breathability of the paper, can be set higher pressure difference, and the high breathability of the paper can be set lower pressure difference, easy and accurate determination of the results.

Easy to use, high automation: the traditional breathability tester test is not only slow and laborious, on the contrary, the breathability tester test is automatic and fast, at the same time the accuracy of the test results has been guaranteed.Misoperation or low reproducibility of test results, which are caused by poor instrument design and manufacturing techniques, are effectively avoided in this instrument.

 






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