Multidisciplinary Simulation and Design Optimization of a Variable Cross-Section Cantilever Beam

Zi Peng Li; Wen Qiang Li; Yan Li

doi:10.4028/www.scientific.net/AMR.479-481.1545

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Dynamics Analysis for Naval Gun with Consideration of Contact between Arc and Gear
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Study on Suspension Parameters of Motor Cars
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Multidisciplinary Simulation and Design Optimization of a Variable Cross-Section Cantilever Beam
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 479-481Multidisciplinary Simulation and Design...

Multidisciplinary Simulation and Design Optimization of a Variable Cross-Section Cantilever Beam

Abstract:

Abstract. Aiming at the need of multi-objective optimization design of the common beam in engineering, this paper optimized the beams’ carrying capacity and anti-vibration ability based on optimization design platform of Isight, which integrated ProE and Ansys software. Through automatic iteration of the beam’s 3D modal data and simulation results, one ideal optimization solution can be obtained by using NLPQL algorithm. Compared with initial design, optimization Results’ performance parameter improved markedly. This standard method and steps can be promoted to engineers, which involve beam’s finite element analysis and design optimization.

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Periodical:

Advanced Materials Research (Volumes 479-481)

Pages:

1545-1550

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.479-481.1545

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Online since:

February 2012

Authors:

Zi Peng Li, Wen Qiang Li, Yan Li

Keywords:

Optimization Design, Platform of Isight, Variable Cross-Section Cantilever Beam

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References

[1] Gill P E and Murray W. Handbooks in operations research and management science [M].Amsterdam, Elsevier, 1989, 171-210.

Google Scholar

[2] Boggs P T and Tollc J W. Sequential quadratic programming [J]. Acta Numerica, 1995, 4:1-15.

Google Scholar

[3] Alkaya D, Vasantharajan S and Biegler L T. Successive Quadratic Programming: Applications in the Process Industry [J].Encyclopedia of Optimization, 2001, 5:400-413.

DOI: 10.1007/0-306-48332-7_515

Google Scholar

[4] Jiajun Yuan，Shenyan Chen and Hai Huang. Engineering application based on optimization of the structure of Patran/Nastran system. [J]. Beijing university of aeronautics journals，2006, 3（2）： 125-129. (In Chinese)

Google Scholar

[5] Hai Huang，Hongjun Ran and Renwei Xia. Engineering structure optimization program system ESSOS[J]. Computational mechanics journals，1995,12（3）323-331. (In Chinese)

Google Scholar