Development of Internally Pressurized Composite/Metallic/Composite Hybrid Pipes
الملخص
The challenge to the pipeline industry is to meet the increased worldwide
demand while reducing the cost. Currently, metallic and composite pipelines are the
most cost-effective way of transporting water, oil, and gas. Limitations of metallic and
composite pipelines are familiar. Corrosion reduces the load-carrying capacity of
metallic pipelines, while matrix cracking/abrasion causes the failure of the composite
pipelines. Both corrosion and abrasion cause significant losses and decrease the
structural integrity of pipelines. This work proposes a corrosion-free hybrid pipe,
which will improve the pipeline’s pressure capacity and eliminate internal and external
corrosion. First, this research aimed to examine fiber type and fiber orientation’s effects
on the interface bonding between steel and fiber-reinforced composites. To this end,
fracture loads for modes I and II were experimentally determined for FRP/steel samples
with different fiber types and orientations. Results showed that fiber orientations and
fiber types have significantly affected the interface bonding between the steel and fiber reinforced composite. Second, a detailed investigation for the effect of the FRP
overwrap system on the bending behavior of metallic pipes was presented, especially in the presence of heat-affected zone in the case of welded pipes. It was proved that the
use of the proposed FRP overwrap system had eliminated the effect of the heat-affected
zone in welded / steel pipes, and the maximum bending flexural load showed a
noticeable increase.
Third, the internal pressure capacity of hybrid composite/steel/composite pipes
was tested according to ASTM D1599 standard. The testing results showed significant
improvement in the internal pressure capacity compared to the conventional steel pipes.
Fourth, a detailed evaluation of fiber type’s effect on the electrochemical corrosion
aspects in different highly corrosive solutions, 0.5 M NaCl, 0.5 M HCl, and 0.5 M
H2SO4, was presented. Finally, the corrosion aspects of composite overwrapped steel
pipes were evaluated. The FRP/steel pipes were immersed in a glass container
containing the corrosive solutions and monitored for six months and one year. The
corrosion condition was qualitatively analyzed using SEM, EDX and XRD analysis.
Results showed an excellent corrosion resistance for the FRP/steel pipes compared to
the conventional carbon steel pipes.
DOI/handle
http://hdl.handle.net/10576/22128المجموعات
- الهندسة الميكانيكية [64 items ]