Development of integrated intelligent CAD system for synthesis and stress-deformation analysis of pressure vessels

  • Abstract
  • Keywords
  • References
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  • Abstract

    This paper presents the process of developing an integrated intelligent CAD system (IICAD) for synthesis and stress-deformation analysis of pressure vessels. The name of the system is IICAD PP system. The goal of the paper is to present procedures and steps to develop IICAD system for specific type of products. These procedures and steps can be used to develop IICAD system for any type of specific products or family of products. IICAD PP system can help engineers during calculation and design of pressure vessels. The paper shows that IICAD PP system enables quick calculations of design parameters, automatic generations of 3D geometrical model and automatic conduction of numerical analysis for stress and deformation. All these design activities take a lot of time from engineers if they are done using conventional methods.

  • References

      [1] Saric I, Muminovic A, Colic M &Rahimic S (2017), Development of integrated intelligent computer-aided design system for mechanical power-transmitting mechanism design. Advances in Mechanical Engineering 9, 1–16.

      [2] Hui-Xia L, Wei W, Xiao W &Lan C (2008), Development of a Knowledge-Based Intelligent CAD System for Automotive Panel Die. Journal of Advanced Manufacturing Systems 7, 51–54.

      [3] Lin B-T, Chan C-K & Wang J-C (2008), A knowledge-based parametric design system for drawing dies. International Journal of Advanced Manufacturing Technology 36, 671–680.

      [4] Liao YH, Liu GJ & Sun XG (2014), Development of an Intelligent CAD System for Involute Cylindrical Gear Cutting Tools. Applied Mechanics and Materials 532, 249–252.

      [5] Milčić D (2008), Integrisaniprogramskisistemzakonstruisanjeprenosnikasnage – vezasa CAD sistemom. IMK-14 Istraživanje i razvoj XIV, 91–98.

      [6] Colombo G, MoscaA&Sartori F (2007), Towards the design of intelligent CAD systems: An ontological approach. Advanced Engineering Informatics 21, 153–168.

      [7] Saric I, Development of Integrated CAD System for Design of Mechanical Power Transmissions. Doctoral Dissertation, Faculty of Mechanical Engineering Sarajevo, Sarajevo, September 2014

      [8] Rio-Cidoncha MGD, Martinez-Palacios J &Ortuño-Ortiz F (2007), Task automation for modelling solids with CATIA V5. Aircraft Engineering and Aerospace Technology 79, 53–59.

      [9] Sanders D, Tan YC, Rogers I & Tewkesbury GE (2009), an expert system for automatic design-for-assembly. Assembly Automation 29, 378–388.

      [10] Novak M, Dolšak B (2000), an Intelligent Computer System for Supporting Design Education. Strojniškivestnik – Journal of Mechanical Engineering 46, 383–390.

      [11] Zha XF &Howlett RJ, Integrated Intelligent Systems for Engineering Design, IOS Press, (2006)

      [12] Tickoo S, CATIA V5R20 for Designers, CADCIM Technologies, (2010)

      [13] Yang DY, Ahn DG, Lee CH, Park CH & Kim TJ (2002), Integration of CAD/CAM/CAE/RP for the development of metal forming process. Journal of Materials Processing Technology 125–126, 26–34.

      [14] Zamani NG & Weaver JM, Catia V5 Tutorials: Mechanism Design & Animation Release 20, SDC Publications, (2011)

      [15] Repcic N &Muminovic A, Mechanical Elements II, Faculty of Mechanical Engineering Sarajevo, Sarajevo, (2007).




Article ID: 8666
DOI: 10.14419/ijet.v7i1.8666

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