Volume 4, Issue 2, April 2015, Page: 36-42
Technique to Calculate the Strength of the Combined Gas Cylinder High Pressure
Emad Toma Bane Karash, Technical of Education, Mosul Institute, Mosul, Iraq
Received: Mar. 24, 2015;       Accepted: Apr. 3, 2015;       Published: Apr. 15, 2015
DOI: 10.11648/j.am.20150402.13      View  5273      Downloads  141
Two types of composite cylindrical high-pressure vessels load-carrying capacity design procedure based on the discrete - structural theory are considered in this paper. The new design of the combined cylindrical vessel is offered. The cylinder includes an internal bearing fiberglass shell and an external protective metal cover. The vacuity between a fiberglass shell and a covering is filled with a soft material that allows regulating contact pressure which is transferred from a fiberglass shell to a metal covering.
Vessel, Multilayered Shells, Cylinder, Composite Materials, Fiberglass Shell
To cite this article
Emad Toma Bane Karash, Technique to Calculate the Strength of the Combined Gas Cylinder High Pressure, Advances in Materials. Vol. 4, No. 2, 2015, pp. 36-42. doi: 10.11648/j.am.20150402.13
Gas cylinders - High pressure cylinders for the on-board storage of natural gas as a fuel for automotive vehicles: ISO 11439-2003. - [First edition 2000-09-15]. - ISO. 2003. - 80 p. (International Standard).
High pressure cylinders for compressed natural gas used as a fuel for automotive vehicles. General specifications: GOST R 51753-2001. - [Enacted 29/05/2001]. - M.: GoststandartRussia. 2001. - 20 p. (State Standard of the Russian Federation).
N.V. Pavlov., Creating cars recipients for storage. Transportation and supply of compressed hydrogen/ N.V. Pavlov // Technical gases. - 2008. - № 2. - C. 43-47.
Alexis A. Krikanov., “Composite pressure vessels with higher stiffness” 1999 Elsevier science Ltd. Composite structures. Vol -48. pp 119-127 (2000).
S. Adali. E.B. Summers & V.E. Verijenko.. “Optimization of Laminated Cylindrical pressure vessels under strength criterion”. Composite structures. Vol-25. pp 305-312 (1993). University of national Durban 4001. South Africa.
Tae-Uk Kim..Hvo. Chol Sin., “Optimal design of composite laminated plates with the discreteness in plies angles and uncertain in material properties considered”. Computers and Structures 79. pp 2501-2509. (2001).
Levend Parnas., Nuran Katirei., Design of Fiber Reinforced Composite pressure vessels under various loading conditions”. Composite structures 58. pp 83-95 (2002).
S.M. Vereshchaka., Nonlinear deformation and stability of multilayer structural elements with structural defects / SM Vereshchaka -Sumy: Publishing House of the SSU. 2009. - 286 p.
S.K. Godunov., on the numerical solution of boundary value problems for systems of linear ordinary differential equations / S.K. Godunov // Uspekhi Mat. Sciences. - 1961 - 16.№ 3. - S. 171-174.
N.A. Alfutov., Calculation of laminated plates and shells made of composite materials / Alfutov NA, Zinoviev PA, Popov B. G.- M .: Engineering, 1984. - 264 p.
D. Plasticity Drucker and D. Drucker., Inelastic properties of composite materials [ed. K. Gerakovicha; per. with English]. - M .: Mir, 1978. - P. 9 - 32
A.K. Malmeyster., Resistance of polymeric and composite materials / Malmeyster A.K. , Tamuzs V.P., Teters G.A. - Riga: Zinatne, 1980. - 572 p.
S.M. Vereshchaka., Elastic constants and generalized stiffness of the layered structure of the material / S.M. Vereshchaka // Bulletin of the National the Technical University "KPI". - Special Issue: Dynamics and strength of machines. - Kharkov: NTU "KPI". - 2008. - № 36. - S. 29-40.
Browse journals by subject