SU1363008A1 - Method of determining density of porous materials - Google Patents

Abstract

The invention relates to the field of measurement technology and can be used to measure the density of porous materials. The aim of the invention is to improve the accuracy of measurements by more fully filling the pores of the sample under study by using working fluids in the pycnometric method, increasing their volume during crystallization. After weighing the pycnometer with the liquid and the sample saturated with it, the liquid is drained and the pycnometer is cooled until the liquid completely crystallizes in the pores of the sample. After the pycnometer with the sample is heated to a temperature above the crystallization temperature, the pycnometer is again filled with liquid and weighed. The cooling, heating, and weighing operations are carried out until the successive weighing results coincide with a given accuracy, after which the sample density is calculated, C /) s from 05 00

Description

The invention relates to a measurement technique, in particular to the measurement of the density of porous materials by hydrostatic weighing.

The purpose of the invention is to reduce the error in measuring the density due to a more complete filling of the pores of the sample with the seat.

The method is carried out as follows.

A sample of the porous material is placed in a pycnometer, the dry sample is weighed with a pycnometer, and the sample is treated with liquid. After weighing the sample with the pycnometer, the pycnometer with the sample whose pores are filled with liquid is cooled to complete crystallization of the liquid in the pores, then the pycnometer is warmed to the temperature above the crystallization temperature, re-weighed with the pycnometer filled with liquid In addition, the cooling and the subsequent 1e operations are carried out until the next measurement coincides with the previous measurement, after which the density of the sample is calculated. A decrease in the measurement error when using working liquids that increase their volume during crystallization is achieved due to the fact that when the liquid crystallizes its volume increases and it destroys the walls of open pores, thereby accelerating the further penetration of the liquid into the open developed pores.

Compiled by V.Peresadko Editor A.Revin Tehred L.Serdyukova Proofreader V.Girn to

Order 6393/30 Circulation 776 Subscription

VNIIPI USSR State Committee

for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5

Production and printing company, Uzhgorod, Projecto st., 4

sample. Repetition of the freezing (crystallization) operation and subsequent operations until the next measurement coincides with the previous one provides a more complete filling of all open developed pores of the sample with liquid.

Claims (1)

Invention Formula A method for determining the density of porous materials in which a sample of a porous material is placed in a pycnometer, weighs a dry sample with a pycnometer, saturates the sample with liquid and weights the sample with a pycnometer filled with liquid, using the results obtained determines the density of the sample, characterized in that, to reduce the error measuring the density due to a more complete filling of the pores of the sample with liquid, after weighing the pycnometer with the working fluid and the sample, the liquid is drained, the pycnometer is cooled to full Allocation of the liquid in the pores of the sample, then the pycnometer with the sample is heated to a temperature above the crystallization temperature of the liquid and reweighed, the cooling and subsequent operations are carried out until the next measurement coincides with the previous measurement. Bochei use liquids that increase during crystallization in volume.