SU682797A1 - Method of the determination of porosity of solids - Google Patents

Description

or ignition of luminescence due to gas adsorption by particles of phosphor.

Since in this method the long-term phosphorus deposition operation is performed once in the manufacture of a gas-permeable partition, the control efficiency is increased. The purity of the test sample is ensured by the fact that only gas is added to foreign substances, which, if necessary, can be easily removed.

The drawing shows a diagram of the measuring setup that implements this method.

When preparing the installation for operation, apply a phosphor, for example zinc oxide, with a thin layer to the gas-permeable partition 1, which is used as a lubricated glue and blown fabric or mesh fixed on the rigid case 2 in the case of the measuring cell 3.

At each successive measurement, the test porous sample 4 is placed parallel to the surface of the gas-permeable partition 1. In this case, two chambers 5 and 6 are formed in the measuring cell. In the chamber 5, a flow distributor 7 is placed in front of the porous sample, for example, in the form of a grid. The measuring cell is flushed with an inert gas, such as nitrogen, from the tank 8 with the valves 9 and 10 open.

Then, the gas pressure in the measuring cell is lowered from the side of the partition using a vacuum pump 11 with the valves closed.

 Next, excite the phosphor using an ultraviolet light source 12, for example a mercury-quartz lamp with an ultraviolet filter, through the window 13, covered with quartz glass.

Then a gas or vapor is passed through the porous sample and the gas-permeable barrier on the side of the porous body, which changes the brightness of the luminous phosphor. For example, gases such as ozone, humid oxygen, humid air, nitrous oxide, or acetone / benzene vapors cause the luminescence of zinc oxide to drift with a green band. The gas from the tank 14 when the valve 15 is open, barges through the liquid in the tank 16, enters the chamber 5, passes through the flow distributor 7, the porous sample 4 and the gas-permeable partition 1 into the reduced pressure chamber 6 and is removed by a vacuum pump 11, which can be it is supplied with a condensate trap or gas diffuser.

Then, the distribution of the luminance brightness on the surface of the gas-permeable partition 1 over the area of the test porous sample 4 is observed through the window 13. The observation is made both during excitation using a light filter and immediately after the excitation is stopped during the afterglow. For

quantification should take photographs. When using gas or vapor that quenches the luminescence, the surface areas of the gas-permeable partition that are located opposite the surface areas of the porous body with a higher gas permeability will be darker. The commencement of arousal, purge, and observation operations may vary by units of seconds. The duration of these three operations is 20-30 seconds. The measurement process of each porous sample can be repeated many times with pauses of several minutes. Initial discharge in

the measuring cell is adjusted to 1 mmHg. Art. The release of gas is carried out at atmospheric pressure, steam - at saturation pressure. The temperature is room temperature, but the liquid is better heated.

The method allows to increase the efficiency and ensure the purity of the test sample. In a known method, the phosphor deposition operation is performed for each test body and may take more than 30 minutes. Since the remaining operations for the known and proposed methods are approximately equal in duration, the efficiency of this method is increased by about 30 minutes for each measurement. The speed of control is essential when setting up technological equipment, which is produced approximately once in the production of metal-ceramic powder plates.

in shift. Reducing the time of control of each test product leads to a reduction in the time of the forced just high-performance equipment. In the process of equipment operation, periodic quality control of the manufactured products is necessary. In a number of practical applications, the introduction of extraneous substances in the form of phosphor powder into the product is unacceptable, therefore, the known method of control actually becomes destructive. In this case, this method will reduce the percentage of waste products.

Claims (2)

Invention Formula A method for determining the porosity of solids by exciting a phosphor deposited on a sample, passing a gas from the sample side that changes the luminance of the excited phosphor, and recording the luminous brightness distribution of the phosphor over the area of the test sample, in order to increase the speed of control and ensure cleanliness the test sample The phosphor is applied to a gas-permeable partition located parallel to the surface of the porous sample, and a gas is passed from the sample side that changes the luminance of the excited lyumiofor. Sources of information taken into account in the examination 1. Chem-Ind-Techn, 1976, 48, No. 6, p. 555. the USSR 2. Copyright certificate № 389884, cl. At 22F 3/00, 1970. 13 12.