SU1613919A1 - Method of testing samples of polymeric tubes by internal hydrostatic pressure - Google Patents

Abstract

The invention relates to the testing of pipes made of heat-resistant polyolefin with internal pressure and is aimed at improving the accuracy and productivity of tests by leveling the thermal floor in the walls of thick pipes, eliminating accidental stresses and choosing the optimum test performance. The method consists in a two-stage temperature control of sealed samples in a heat transfer fluid, which uses polyethylsiloxane, creating pressure inside the sample and measuring the time to failure. Three tests were carried out under different conditions (pressure and temperature), and based on the measurements made, the pipe durability was calculated under operating conditions by the ratio LNΤ = A + B / T, where A is a constant constant for each pressure value of the test.

B - constant

T - temperature, K. 1 Cp f-crystals.

Description

The invention relates to the testing of polymer products, and more specifically polyolefin pressure pipes, designed for hot water systems.

The purpose of the invention is to improve the accuracy and performance of tests by eliminating the effect of random stresses, leveling the thermal floor in the walls of thick pipes, and reducing the test time.

The method of testing samples of polymer pipes with internal pressure is carried out as follows.

A sample of the tube is cut, its internal volume is sealed, a sample is placed in a heat-transfer fluid, which is polyethylene siloxane, and a two-stage thermostatting of the sample is carried out.

In the first stage, the sample is heated at a rate of 2-3 K / min to a temperature above the test temperature of 20-50 K, and is kept for a time determined by the formula;

, where t is the time of thermostating, min;

h is the pipe wall thickness, mm; then the sample is cooled to the test temperature, incubated for 20-30 minutes and pressure is applied to the inside of the sample at a rate of 0.2-0.5 MPa / min to a predetermined value, the test pressure P (MPa) is calculated by the formula

Р 025т1п / (Omax-5min).

where a is the initial stress in the pipe wall, MPa;

Omax - the maximum average outer diameter of the sample obtained by measurement, mm;

Och sb

yu yu

SMHH - the minimum wall thickness of the sample obtained by measurement, mm. .

Measure the time to sample destruction. Three measurements are made. Two of them are carried out at a test pressure exceeding the working pressure by 6-10 MPa at two temperatures T, differing by 20-50 K, and the third is carried out at an operating pressure and temperature T exceeding the working pressure by 50-70 K.

The admission that for each value of a the linear dependence between 1pt and 1 / T is maintained, in coordinates In m – 1 / T for various orders, there are a number of parallel direct lines. From the measured values, the values of A and B are determined from the ratio

Inr-A + B / T,

where A is the coefficient. constant for each value of t, which corresponds to a certain value of pressure in the sample;

B is a constant.

Then, the pipe durability under operating conditions is calculated from the indicated ratio.

Claims (2)

1. Method of testing polymer tube samples with internal hydrostatic pressure by sealing the internal volume of the sample, thermostating it in a heat-transfer fluid at the test temperature, increasing the pressure inside the sample to the test pressure and measuring the time to failure, characterized in that performance tests of samples of polyolefin pipes, polyethylene siloxane is used as a heat carrier, and temperature control is carried out in two stages, at the first minutes from which the sample is heated at a speed of 2-3 K / min to a temperature above the test temperature at 20-50 K and maintained during the incubation time, defined by the relationship: 1 (min) 6b + 5, where h is the wall thickness of the sample, mm; and in the second stage, the sample is cooled to the test temperature, held for 20-30 minutes, and the pressure inside the sample is increased at a rate of 0.2-0.5 MPa / min 2. The method according to p. 1. about tl and h and y and u with By the fact that, the measurements of time T before failure are carried out at a test pressure exceeding the working pressure by 6-10 MPa at two temperatures T, differing by 20-50 K, and also at an operating pressure and temperature T exceeding the working pressure 50 -70 K, the measured A and B values are determined from the ratio, where A is the coefficient constant for each pressure value in the sample; B is a constant and it defines the durability of the pipe under operating conditions.