Influence of acidic solutions on the strain distribution in glasspolyester composite pipes subjected to internal pressure

Influence of acidic solutions on the strain distribution in glasspolyester composite pipes subjected to internal pressure

The basic subject of this paper was the determination of the strain distribution in glass-polyester composite pipes subjected to internal pressure. Firstly, the test was performed on virgin pipe segments (without the influence of acidic solution) to determine the original properties of the examined...

Full description

Saved in:
Bibliographic Details
Main Authors: Ana Tasić, Slaviša Putić, Marina Stamenović
Format: Article
Language:English
Published: Engineering Society for Corrosion, Belgrade 2016-03-01
Series:Zaštita Materijala
Subjects:
glass-polyester composite
internal pressure
influence of solution
fiber reinforced pipes
Online Access:https://www.zastita-materijala.org/index.php/home/article/view/727
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:The basic subject of this paper was the determination of the strain distribution in glass-polyester composite pipes subjected to internal pressure. Firstly, the test was performed on virgin pipe segments (without the influence of acidic solution) to determine the original properties of the examined composite pipes. Subsequently, the pipes were subjected to the influence of 25% acidic solution. Phosphoric and nitric acid were chosen, because of their frequent use in chemical industry, either as reactants or as products. The pipes were made by 'filament winding' method, with the angles of the glass fibers reinforcement [90°]2[±55°]4[90°]4. The tests were performed by subjecting the polymer composite pipes to internal pressure; the strain values were determined by strain gages in three directions: 0°, 90° and ± 45° with respect to the pipe axis. The tests were performed until the leakage occurred, up to the pressure value of approximately 100 bar, i.e. until the occurrence of the first cracks. Also, the micromechanical analysis on fracture surfaces was done by Scanning Electron Microscopy (SEM), which provided the knowledge about models and mechanisms of fracture due to the applied loading.
ISSN:0351-9465
2466-2585

Similar Items