SU666470A1 - Method of investigating specimens of materials - Google Patents

Description

(54) METHOD FOR RESEARCH OF MATERIAL SAMPLES

Claims (2)

The invention relates to technical acoustics and to the field of oil field geophysics, in particular to laboratory methods for studying rock samples. Methods are known for examining samples of materials based on measuring the transit time of an elastically wave in sample 1. However, in these methods it is not possible to determine the porosity of samples. The closest in technical essence is a method for examining material samples, including measuring the interval time of elastic waves in a sample placed in an environment at elevated pressures and temperatures 2. However, this method is inaccurate and requires large time and material costs in conditions close to The real purpose of the invention is to expand the functionality by providing porosity measurement. This goal is achieved by using a fluid with a linear dependence the growth of elastic waves from temperature, the measurement of the interval time of the wave for a sample is carried out at different temperatures and a given pressure, and the sample porosity is determined by the formula,. t. - ti -. interval running time of elastic waves in the sample at different temperatures; tzh. and tjKj is the interval time of the elastic waves in the fluid filling the pores of the sample at different temperatures. The filling working chamber and the sample fluid must have a negative gradient in the linear dependence of the velocity of the elastic wave on temperature, i.e. the velocity of propagation of the elastic wave in the fluid linearly depends on temperature. Such fluids are oil and kerosene. Then for each value of the temperature, we obtain the equations of the average belt temperature t tfK (l-KV) t ten () Kn where where t and tj are the travel time of the elastic war in the sample at different temperatures; fc, and the travel time of the elastic wave in the fluid filling the pores of the sample at different temperatures; ten is the travel time of the elastic wave in the skeleton of the sample Kj, is the sample porosity coefficient. Changes in the coefficient of porosity Kl and the travel time of the elastic wave in the sample skeleton with temperature changes are negligible compared with changes in the travel time of the elastic wave in the sample and liquid and therefore are taken as constant values. (1) we obtain From the system of equations the values of Kc and tcK t - t, K, ... t -. ti t ";, tjK, 1 - Kn. C / es increases the efficiency of studies of mining rock samples by simultaneously obtaining two speed parameters UCK of the elastic wave propagation in the skeleton of the sample, and the porosity coefficient Cd directly under reservoir conditions without prior measurement of K pr atmospheric conditions. DETAILED DESCRIPTION A method for examining samples of materials, including measuring the interval time of elastic waves in a sample placed on the medium at elevated pressures and temperatures, as well as determining the porosity of the sample, characterized in that, in order to extend the functionality by measuring the porosity, As a medium, a fluid with a linear dependence of the velocity of elastic waves on temperature is used, the measurement of the interval time of the wave for the sample is produced at different rates tanks and a given pressure, and the porosity of the sample is determined by the formula JEA. G, t, where tj and the interval time of elastic waves in the sample at different temperatures; t, and tMj are the interval time of travel of elastic waves in the fluid filling the pores of the sample at various temperatures. Sources of information taken into account in the examination 1. Methods and ultrasound devices. Ed. U. Mazon, Part A, Physical Acoustics, ed. Mir., M., 1966, pp.357-359. 2. Avchan GM, Sedimentary rock properties at high pressures and temperatures. M., ed. Nedra, 1972, pp. 22-26.