RP (Reinforced Plastics) are attractive as alternate materials for traditionally used carbon steel or alloy tubulars for oil and gas production because of their excellent corrosion-resistant properties. In oil and gas applications, high mechanical performance properties are required for tubulars at not only ambient temperature, but also elevated temperature. Mechanical properties of RP materials at elevated temperature depend strongly on their matrix resin systems. Three matrix resin systems were selected, and mechanical properties at both ambient and elevated temperature were investigated. Mechanical properties after exposure to corrosive environments (5 % NaCl + CO2, 5 % NaCl + CO2 + H2S) were also studied. Moreover, RP pipes were filament-wound using these matrix resin systems, and tensile properties and internal pressure capabilities of those RP pipes were investigated. Test results show that both heat-resistant properties and elongation properties of matrix resin are important, and an aromatic amine cured epoxy resin system has excellent properties.
The effect of matrix resins on the mechanical properties of fiberglass reinforced pipes for oil and gas production
Die Wirkung von Matrixharzen auf die mechanischen Eigenschaften von Glasfaser-verstärkten Rohren der Öl- und Gasproduktion
1991
5 Seiten, 8 Bilder, 3 Tabellen, 6 Quellen
Aufsatz (Konferenz)
Englisch
Performance of Fiberglass-Reinforced Resins in Instrument Panels
SAE Technical Papers | 1987
|Performance of fiberglass-reinforced resins in instrument panels
Kraftfahrwesen | 1987
|Performance of fiberglass-reinforced resins in instrument panels
Tema Archiv | 1987
|Silicone Rubber, Fiberglass Fabric Reinforced
SAE Technical Papers | 2007
Silicone Rubber, Fiberglass Fabric Reinforced
SAE Technical Papers | 2007