Abstract
Reinforcing the coatings of gas pipelines allows an increase in their operating pressure and thus their throughput; combined with strong insulation, such reinforcing materials as metal screens and fiberglass also protect the pipeline. Soviet analysts have mathematically derived the limiting internal pressure in a line with a reinforced coating as a function of the coating's thickness and mechanical properties. The method assumes that the pipe material is isotropic and elastic. The calculations help in determining (1) the dependence of the relative limiting pressure on the relative coating thickness and (2) the effect of the ratio of the Young's modulus of the reinforcing material to that of the pipe material upon the dependence of the relative limiting pressure on coating thickness. The analysis awaits experimental confirmation.
Citation Formats
Al'shanov, A P, Abdullaev, G T, and Ali-Zade, A N.
Calculating the strength of a gas pipeline with a reinforced coating.
USSR: N. p.,
1981.
Web.
Al'shanov, A P, Abdullaev, G T, & Ali-Zade, A N.
Calculating the strength of a gas pipeline with a reinforced coating.
USSR.
Al'shanov, A P, Abdullaev, G T, and Ali-Zade, A N.
1981.
"Calculating the strength of a gas pipeline with a reinforced coating."
USSR.
@misc{etde_5597042,
title = {Calculating the strength of a gas pipeline with a reinforced coating}
author = {Al'shanov, A P, Abdullaev, G T, and Ali-Zade, A N}
abstractNote = {Reinforcing the coatings of gas pipelines allows an increase in their operating pressure and thus their throughput; combined with strong insulation, such reinforcing materials as metal screens and fiberglass also protect the pipeline. Soviet analysts have mathematically derived the limiting internal pressure in a line with a reinforced coating as a function of the coating's thickness and mechanical properties. The method assumes that the pipe material is isotropic and elastic. The calculations help in determining (1) the dependence of the relative limiting pressure on the relative coating thickness and (2) the effect of the ratio of the Young's modulus of the reinforcing material to that of the pipe material upon the dependence of the relative limiting pressure on coating thickness. The analysis awaits experimental confirmation.}
journal = []
journal type = {AC}
place = {USSR}
year = {1981}
month = {Oct}
}
title = {Calculating the strength of a gas pipeline with a reinforced coating}
author = {Al'shanov, A P, Abdullaev, G T, and Ali-Zade, A N}
abstractNote = {Reinforcing the coatings of gas pipelines allows an increase in their operating pressure and thus their throughput; combined with strong insulation, such reinforcing materials as metal screens and fiberglass also protect the pipeline. Soviet analysts have mathematically derived the limiting internal pressure in a line with a reinforced coating as a function of the coating's thickness and mechanical properties. The method assumes that the pipe material is isotropic and elastic. The calculations help in determining (1) the dependence of the relative limiting pressure on the relative coating thickness and (2) the effect of the ratio of the Young's modulus of the reinforcing material to that of the pipe material upon the dependence of the relative limiting pressure on coating thickness. The analysis awaits experimental confirmation.}
journal = []
journal type = {AC}
place = {USSR}
year = {1981}
month = {Oct}
}