TY  - JOUR
VL  - 21
AV  - none
JF  - Results in Engineering
UR  - https://www.scopus.com/inward/record.uri?eid=2-s2.0-85180761102&doi=10.1016%2fj.rineng.2023.101667&partnerID=40&md5=1ffbc74f9ee77502fe2b7cebb29fdfb7
A1  - Azeem, M.
A1  - Ya, H.H.
A1  - Azad Alam, M.
A1  - Kumar, M.
A1  - Sajid, Z.
A1  - Gohari, S.
A1  - Maziz, A.
A1  - Gemi, L.
A1  - Abdullah, S.I.B.S.
A1  - Khan, S.H.
N1  - cited By 4
ID  - scholars19874
N2  - Various pressure vessels from Type I to Type IV are used to store hydrogen and compressed natural gas (CNG) at high pressures. The polymeric liner in Type IV composite pressure vessels (CPVs) does not share the load, unlike those with metallic liners (Type III); hence, the composite layers share the entire load. The winding angles play a crucial role in tailoring the pressure-bearing properties of CPVs. This study investigated the effect of fiber winding angles on the hoop stress in Type IV CPVs using finite element (FE) analysis, and the advantage of multi-angle winding was realized. Stress analysis is vital to ensure that the vessel can withstand the intended operating conditions without undergoing failure. A series of finite element analyses (FEA) was carried out using the Abaqus FE simulation software to study the behavior of an anisotropic fiber-reinforced CPV with varied winding schemes. A stress analysis was performed, and various winding schemes were compared for different cases. The hoop stress in various configurations was documented to assess and compare various winding configurations. © 2023 The Authors
Y1  - 2024///
KW  - ABAQUS; Compressed natural gas; Finite element method; Pressure vessels; Residual stresses; Winding
KW  -  Composite pressure vessels; Finite element analyse; High pressure; Hoop strength; Hoop stress; Hydrogen and compressed natural gas; Polymeric liners; Stresses analysis; Winding angle; Winding orientation
KW  -  Stress analysis
TI  - Influence of winding angles on hoop stress in composite pressure vessels: Finite element analysis
ER  -